MARIO SOBERON CHAVEZ



DATOS GENERALES
Nombre completo   MARIO SOBERON CHAVEZ
Máximo nivel de estudios   POSDOCTORADO
Antigüedad académica en la UNAM   39 años
NOMBRAMIENTOS
Vigente   INVESTIGADOR TITULAR C TC Definitivo
Instituto de Biotecnología
Desde 01-01-2008 (fecha inicial de registros en el SIIA)
PROFESOR ASIGNATURA A TP Definitivo
Coordinación de Estudios de Posgrado
Desde 01-01-2008 (fecha inicial de registros en el SIIA) hasta 31-08-2008
ESTIMULOS, PROGRAMAS, PREMIOS Y RECONOCIMIENTOS
* SNI III2011 - VIGENTE
* SNI II - 2010
* PRIDE D - VIGENTE

INFORMACIÓN DE PUBLICACIONES
Firmas  
Soberón M. Soberón, M Soberón, M. Soberon, Mario
ID's SCOPUS  
7003770565
ORCID's  
0000-0002-1593-9227
Áreas de conocimiento  
Agriculture, multidisciplinary Biochemistry & molecular biology Biochemistry and molecular biology Biology Biophysics
Biotechnology & applied microbiology Biotechnology and applied microbiology Chemistry, multidisciplinary Ecology Entomology
Food science and technology Genetics & heredity Genetics and heredity Immunology Jcs 2008
Microbiology Multidisciplinary sciences Parasitology Pharmacology & pharmacy Pharmacology and pharmacy
Physiology Plant sciences Scie jcr Toxicology Tropical medicine
Zoology Agricultural and Biological Sciences (miscellaneous) Agronomy and crop science Animal science and zoology Applied Microbiology and Biotechnology
Biochemistry Biomedical engineering Biophysics Biotechnology Computer Science Applications
Chemistry (miscellaneous) Ecology, Evolution, Behavior and Systematics Endocrinology Food Science History and Philosophy of Science
Immunology and allergy Infectious Diseases Inorganic Chemistry Insect Science Management, Monitoring, Policy and Law
Medicine (miscellaneous) Microbiology Microbiology (medical) Multidisciplinary Parasitology
Pharmacology Pharmacology, toxicology and pharmaceutics (miscellaneous) Physics and astronomy (miscellaneous) Toxicology Virology
Coautorías con entidades de la UNAM  
  • Centro de Ciencias Genómicas
  • Instituto de Investigaciones Biomédicas
  • Instituto de Biotecnología
  • Instituto de Ciencias Físicas
  • Facultad de Ciencias
  • Facultad de Química
  • Facultad de Odontología
  • Facultad de Estudios Superiores "Cuautitlán"
  • Escuela Nacional Preparatoria Plantel 3 "Justo Sierra"
  • Coordinación de Estudios de Posgrado
 Revistas en las que ha publicado  (66):
  1. ADV INSECT PHYSIOL, Estados Unidos America (2023)
  2. AMB Express, Alemania (2015)
  3. APPLIED AND ENVIRONMENTAL MICROBIOLOGY, Estados Unidos America (1998, 1999, 2006, 2009, 2011, 2013, 2017, 2018, 2020, 2021, 2022)
  4. APPLIED MICROBIOLOGY AND BIOTECHNOLOGY, Estados Unidos America (1993, 1996, 2015, 2024)
  5. BIOCHEMICAL JOURNAL, Reino Unido (2006, 2009, 2012, 2014)
  6. BIOCHEMISTRY, Estados Unidos America (2003, 2004, 2006, 2009, 2011)
  7. BIOCHIMICA ET BIOPHYSICA ACTA-BIOMEMBRANES, Países Bajos (2002, 2004, 2009)
  8. BIOTECHNOL GENET ENG, Reino Unido (2009)
  9. BIOTECHNOLOGY LETTERS, Países Bajos (1998)
  10. BMC BIOLOGY, Reino Unido (2022)
  11. Bmc Genomics, Reino Unido (2015)
  12. CELLULAR AND MOLECULAR LIFE SCIENCES, Suiza (2009)
  13. CELLULAR MICROBIOLOGY, Estados Unidos America (2007)
  14. Electronic Journal Of Biotechnology, Chile (2016)
  15. eLife, Reino Unido (2021)
  16. ENVIRONMENTAL MICROBIOLOGY, Estados Unidos America (2010, 2013, 2019, 2021)
  17. FEBS JOURNAL, Estados Unidos America (2023)
  18. FEBS LETTERS, Estados Unidos America (2002, 2004, 2005)
  19. FEMS MICROBIOLOGY LETTERS, Reino Unido (1998, 2000, 2008)
  20. FEMS MICROBIOLOGY REVIEWS, Estados Unidos America (2013)
  21. Frontiers in Bioengineering and Biotechnology, Suiza (2018)
  22. FRONTIERS IN IMMUNOLOGY, Suiza (2023)
  23. Frontiers In Insect Science, Suiza (2023)
  24. FRONTIERS IN MICROBIOLOGY, Suiza (2021)
  25. Gene, Países Bajos (1996, 2000)
  26. INSECT BIOCHEMISTRY AND MOLECULAR BIOLOGY, Reino Unido (2010, 2011, 2012, 2013, 2015, 2017, 2018, 2020, 2021)
  27. INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES, Suiza (2013, 2016)
  28. ISME JOURNAL, Reino Unido (2020)
  29. JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY, Estados Unidos America (2011, 2020, 2024)
  30. JOURNAL OF BACTERIOLOGY, Estados Unidos America (1989, 1990, 1997, 2001)
  31. JOURNAL OF BIOLOGICAL CHEMISTRY, Estados Unidos America (2001, 2002, 2004, 2005, 2006, 2007, 2009, 2010, 2011, 2012, 2013, 2017, 2018, 2020)
  32. JOURNAL OF ECONOMIC ENTOMOLOGY, Estados Unidos America (2016)
  33. Journal Of General Microbiology, (1985, 1986, 1987, 1989)
  34. JOURNAL OF INSECT PHYSIOLOGY, Estados Unidos America (2011)
  35. JOURNAL OF INVERTEBRATE PATHOLOGY, Estados Unidos America (2006, 2010, 2014)
  36. JOURNAL OF MEMBRANE BIOLOGY, Estados Unidos America (2006, 2012)
  37. Mbio, Estados Unidos America (2019)
  38. MICROBIAL BIOTECHNOLOGY, Estados Unidos America (2013, 2021, 2022, 2023, 2024)
  39. MICROBIOLOGYOPEN, Estados Unidos America (2016)
  40. MOL GEN GENET, (1997)
  41. MOLECULAR BIOTECHNOLOGY, Estados Unidos America (2007)
  42. MOLECULAR MICROBIOLOGY, Estados Unidos America (1993, 2008)
  43. MOLECULAR PLANT-MICROBE INTERACTIONS, Estados Unidos America (1999, 2001)
  44. Nature Biotechnology, Estados Unidos America (2011)
  45. NATURE COMMUNICATIONS, Reino Unido (2022)
  46. Peptides, Estados Unidos America (2007, 2008, 2009, 2011, 2013, 2014, 2015, 2017)
  47. PESQUISA AGROPECUARIA BRASILEIRA, Brasil (2016)
  48. PEST MANAGEMENT SCIENCE, Estados Unidos America (2021)
  49. PESTICIDE BIOCHEMISTRY AND PHYSIOLOGY, Estados Unidos America (2012, 2016, 2020, 2021, 2023)
  50. PLANT PHYSIOLOGY, Estados Unidos America (1992)
  51. PLOS GENETICS, Estados Unidos America (2022)
  52. PLOS NEGLECTED TROPICAL DISEASES, Estados Unidos America (2024)
  53. PLOS ONE, Estados Unidos America (2009, 2011, 2012, 2013, 2015, 2016, 2018)
  54. PLOS PATHOGENS, Estados Unidos America (2016, 2021, 2024)
  55. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, Estados Unidos America (2001, 2005)
  56. PROTEIN SCIENCE, Estados Unidos America (2015)
  57. Psyche (New York), Egipto (2011)
  58. Revista Latinoamericana de Microbiologia, México (2006)
  59. RSC Green Chemistry, Reino Unido (2011)
  60. Science, Estados Unidos America (2007, 2014)
  61. SCIENTIFIC REPORTS, Reino Unido (2015, 2017, 2018, 2024)
  62. Southwestern Entomologist, Estados Unidos America (2010)
  63. Toxicon, Reino Unido (2007, 2012)
  64. Toxins, Suiza (2019, 2020, 2021, 2023)
  65. TRANSGENIC RESEARCH, Países Bajos (2017)
  66. TRENDS IN BIOTECHNOLOGY, Países Bajos (2008)


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Documentos indexados (WoS y Scopus)

# Título del documento Autores Año Revista Fuente Citas WoS Citas Scopus
1Bacillus thuringiensis Cry9Aa Insecticidal Protein Domain I Helices a3 and a4 Are Two Core Regions Involved in Oligomerization and ToxicityCoautor: Soberón M., He X., Yang Y., Bravo A., et al.2024JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRYWoS-id: 001144594100001
Scopus-id: 2-s2.0-85182004263
00
2JAK/STAT signaling regulated intestinal regeneration defends insect pests against pore-forming toxins produced by Bacillus thuringiensisCoautor: Soberón, M, Wang, ZY, Yang, YC, Li, SR, et al.2024PLOS PATHOGENSWoS-id: 001150454900001
Scopus-id: 2-s2.0-85182761842
22
3Performance insights into spray-dryer microencapsulated Bacillus thuringiensis cry pesticidal proteins with gum arabic and maltodextrin for effective pest controlCoautor: Soberón M., de Oliveira J.L., Gómez I., Sánchez J., et al.2024APPLIED MICROBIOLOGY AND BIOTECHNOLOGYWoS-id: 001152696400003
Scopus-id: 2-s2.0-85183581298
11
4Silencing Ditylenchus destructor cathepsin L-like cysteine protease has negative pleiotropic effect on nematode ontogenesisCoautor: Soberón M., Huang G., Cong Z., Liu Z., et al.2024SCIENTIFIC REPORTSWoS-id: 001214888200037
Scopus-id: 2-s2.0-85191792848
00
5A concept for international societally relevant microbiology education and microbiology knowledge promulgation in societyCoautor: Soberón M., Timmis K., Hallsworth J.E., McGenity T.J., et al.2024MICROBIAL BIOTECHNOLOGYWoS-id: 001231189700001
Scopus-id: 2-s2.0-85192027723
16
6CRISPR-Cas9 knockout of membrane-bound alkaline phosphatase or cadherin does not confer resistance to Cry toxins in Aedes aegyptiCoautor: Soberón, M, Pacheco, S, Gallegos, AS, Peláez-Aguilar, AE, et al.2024PLOS NEGLECTED TROPICAL DISEASESWoS-id: 001248346000003
Scopus-id: 2-s2.0-85197348859
00
7A major conformational change of N-terminal helices of Bacillus thuringiensis Cry1Ab insecticidal protein is necessary for membrane insertion and toxicityCoautor: Soberon, Mario, Pacheco, Sabino, Gomez, Isabel, Bravo, Alejandra2023FEBS JOURNALWoS-id: 000910920600001
Scopus-id: 2-s2.0-85146180546
67
8Insect chaperones Hsp70 and Hsp90 cooperatively enhance toxicity of Bacillus thuringiensis Cry1A toxins and counteract insect resistanceCoautor: Soberon, Mario, García-Gomez B.I., Sánchez T.A., Cano S.N., et al.2023FRONTIERS IN IMMUNOLOGYWoS-id: 000979876500001
Scopus-id: 2-s2.0-85158054692
34
9Development of an Online Genome Sequence Comparison Resource for Bacillus cereus sensu lato Strains Using the Efficient Composition Vector MethodCoautor: SOBERON, MARIO, Wang, Kui, Shu, Changlong, Bravo, Alejandra, et al.2023ToxinsWoS-id: 001015796100001
Scopus-id: 2-s2.0-85163667644
55
10Can microbial-based insecticides replace chemical pesticides in agricultural production?2ᵒ autor y autor de correspondencia: Soberón M., Bravo A.2023MICROBIAL BIOTECHNOLOGYWoS-id: 001031596200001
Scopus-id: 2-s2.0-85165395199
78
11Helicoverpa armigera GATAe transcriptional factor regulates the expression of Bacillus thuringiensis Cry1Ac receptor gene ABCC2 by its interplay with additional transcription factorsCoautor: Soberon, Mario, Wei, Wei, Wang, Ling, Pan, Shuang, et al.2023PESTICIDE BIOCHEMISTRY AND PHYSIOLOGYWoS-id: 001047918700001
Scopus-id: 2-s2.0-85164735549
23
12Structural changes upon membrane insertion of the insecticidal pore-forming toxins produced by Bacillus thuringiensisCoautor: Soberon, Mario, Pacheco, Sabino, Gomez, Isabel, Pelaez-Aguilar, Angel E., et al.2023Frontiers In Insect ScienceWoS-id: 001089711600001
Scopus-id: 2-s2.0-85168137536
78
13Mode of action of Bacillus thuringiensis Cry pesticidal proteinsCoautor: Soberón M., Bravo A., Pacheco S., Gómez I.2023ADV INSECT PHYSIOLScopus-id: 2-s2.0-85171686238
010
14A versatile contribution of both aminopeptidases N and ABC transporters to Bt Cry1Ac toxicity in the diamondback mothCoautor: Soberon, Mario, Sun, Dan, Zhu, Liuhong, Guo, Le, et al.2022BMC BIOLOGYWoS-id: 000751322300001
Scopus-id: 2-s2.0-85124172617
3133
15MAPK-mediated transcription factor GATAd contributes to Cry1Ac resistance in diamondback moth by reducing PxmALP expressionCoautor: Soberon, Mario, Guo, Le, Cheng, Zhouqiang, Qin, Jianying, et al.2022PLOS GENETICSWoS-id: 000751436300002
Scopus-id: 2-s2.0-85124636102
2833
16Bacillus thuringiensis Cry1Ac Protoxin and Activated Toxin Exert Differential Toxicity Due to a Synergistic Interplay of Cadherin with ABCC Transporters in the Cotton BollwormCoautor: Soberon, Mario, Liao, Chongyu, Jin, Minghui, Cheng, Ying, et al.2022APPLIED AND ENVIRONMENTAL MICROBIOLOGYWoS-id: 000782461400030
Scopus-id: 2-s2.0-85128488075
1315
17Mining versus in vitro evolution for the selection of novel microbial insecticidal proteins2ᵒ autor y autor de correspondencia: Soberón M., Bravo A.2022MICROBIAL BIOTECHNOLOGYWoS-id: 000847828400001
Scopus-id: 2-s2.0-85136871068
01
18A single transcription factor facilitates an insect host combating Bacillus thuringiensis infection while maintaining fitnessCoautor: Soberon, Mario, Guo, Zhaojiang, Guo, Le, Qin, Jianying, et al.2022NATURE COMMUNICATIONSWoS-id: 000867312100016
Scopus-id: 2-s2.0-85139746593
2225
19Two ABC transporters are differentially involved in the toxicity of two Bacillus thuringiensis Cry1 toxins to the invasive crop-pest Spodoptera frugiperda (J. E. Smith)Coautor: SOBERON, MARIO, Jin, Minghui, Yang, Yanchao, Shan, Yinxue, et al.2021PEST MANAGEMENT SCIENCEWoS-id: 000590451200001
Scopus-id: 2-s2.0-85096648073
4348
20Nutrient conditions determine the localization of Bacillus thuringiensis Vip3Aa protein in the mother cell compartmentCoautor: Soberón M., Wang Z., Gan C., Wang J., et al.2021MICROBIAL BIOTECHNOLOGYWoS-id: 000594048700001
Scopus-id: 2-s2.0-85096869591
1213
21Bacillus thuringiensis cry toxin triggers autophagy activity that may enhance cell deathCoautor: SOBERON, MARIO, Yang, Yongbo, Huang, Xiaoying, Yuan, Wanli, et al.2021PESTICIDE BIOCHEMISTRY AND PHYSIOLOGYWoS-id: 000604783000001
Scopus-id: 2-s2.0-85094613479
88
22Bacillus thuringiensis Cry1Ab Domain III beta-16 Is Involved in Binding to Prohibitin, Which Correlates with Toxicity against Helicoverpa armigera (Lepidoptera: Noctuidae)Coautor: SOBERON, MARIO, Sena da Silva, Igor Henrique, GOMEZ, ISABEL, Pacheco, Sabino, et al.2021APPLIED AND ENVIRONMENTAL MICROBIOLOGYWoS-id: 000605459800008
Scopus-id: 2-s2.0-85099428638
44
23In vivo nanoscale analysis of the dynamic synergistic interaction of Bacillus thuringiensis Cry11Aa and Cyt1Aa toxins in Aedes aegyptiCoautor: Soberon, Mario, Lopez-Molina, Samira, do Nascimento, Nathaly Alexandre, Lobo Silva-Filha M.H.N., et al.2021PLOS PATHOGENSWoS-id: 000611973500007
Scopus-id: 2-s2.0-85099803990
1215
24Systemic mitochondrial disruption is a key event in the toxicity of bacterial pore-forming toxins to Caenorhabditis elegansCoautor: Soberon, Mario, Shi, Jianwei, Zhang, Fengjuan, Chen, Ling, et al.2021ENVIRONMENTAL MICROBIOLOGYWoS-id: 000634762700001
Scopus-id: 2-s2.0-85103386212
33
25SfABCC2 transporter extracellular loops 2 and 4 are responsible for the Cry1Fa insecticidal specificity against Spodoptera frugiperdaCoautor: Soberon, Mario, Liu, Yuanyuan, Jin, Minghui, Wang, Ling, et al.2021INSECT BIOCHEMISTRY AND MOLECULAR BIOLOGYWoS-id: 000669224200001
Scopus-id: 2-s2.0-85107961764
1011
26Rapid spread of a densovirus in a major crop pest following wide-scale adoption of Bt-cotton in ChinaCoautor: SOBERON, MARIO, Xiao, Yutao, Li, Wenjing, Yang, Xianming, et al.2021eLifeWoS-id: 000680180200001
Scopus-id: 2-s2.0-85111428144
66
27Bacterial Toxins Active against Mosquitoes: Mode of Action and ResistanceCoautor: Soberon, Mario, Silva-Filha M.H.N.L., Romão T.P., Rezende T.M.T., et al.2021ToxinsWoS-id: 000689792200001
Scopus-id: 2-s2.0-85111764603
5665
28Synergistic resistance of Helicoverpa armigera to Bt toxins linked to cadherin and ABC transporters mutationsCoautor: SOBERON, MARIO, Zhang, Dandan, Jin, Minghui, Yang, Yanchao, et al.2021INSECT BIOCHEMISTRY AND MOLECULAR BIOLOGYWoS-id: 000691808100004
Scopus-id: 2-s2.0-85112209445
1718
29Whole Genome Sequencing Analysis of Bacillus thuringiensis GR007 Reveals Multiple Pesticidal Protein GenesCoautor: Soberon, Mario, Pacheco, Sabino, Gomez, Isabel, Chinas, Marcos, et al.2021FRONTIERS IN MICROBIOLOGYWoS-id: 000720147400001
Scopus-id: 2-s2.0-85119412808
109
30The regulation landscape of MAPK signaling cascade for thwarting Bacillus thuringiensis infection in an insect hostCoautor: Soberon, Mario, Guo, Zhaojiang, Kang, Shi, Wu, Qingjun, et al.2021PLOS PATHOGENSWoS-id: 000728987400003
Scopus-id: 2-s2.0-85114825726
4144
31Comprehensive analysis of Cry1Ac protoxin activation mediated by midgut proteases in susceptible and resistant Plutella xylostella (L.)Coautor: Soberon, Mario, Guo, Zhaojiang, Gong, Lijun, Kang, Shi, et al.2020PESTICIDE BIOCHEMISTRY AND PHYSIOLOGYWoS-id: 000510315200004
Scopus-id: 2-s2.0-85074392679
1718
32Identification of Cry1Ah-binding proteins through pull down and gene expression analysis in Cry1Ah-resistant and susceptible strains of Ostrinia furnacalisCoautor: Soberon, Mario, Shabbir, Muhammad Zeeshan, Zhang, Tiantao, Prabu, Sivaprasath, et al.2020PESTICIDE BIOCHEMISTRY AND PHYSIOLOGYWoS-id: 000510315200024
Scopus-id: 2-s2.0-85076032923
1111
33The CRISPR-Cas systems were selectively inactivated during evolution of Bacillus cereus group for adaptation to diverse environmentsCoautor: SOBERON, MARIO, Zheng, Ziqiang, Zhang, Yulan, Liu, Zhiyu, et al.2020ISME JOURNALWoS-id: 000518096500001
Scopus-id: 2-s2.0-85081579584
3233
34GATAe transcription factor is involved in Bacillus thuringiensis Cry1Ac toxin receptor gene expression inducing toxin susceptibilityCoautor: Soberon, Mario, Wei, Wei, Pan, Shuang, Ma, Yuemin, et al.2020INSECT BIOCHEMISTRY AND MOLECULAR BIOLOGYWoS-id: 000518872600009
Scopus-id: 2-s2.0-85078054914
1518
35Reduced Expression of a Novel Midgut Trypsin Gene Involved in Protoxin Activation Correlates with Cry1Ac Resistance in a Laboratory-Selected Strain of Plutella xylostella (L.)Coautor: Soberon, Mario, Gong, Lijun, Kang, Shi, Zhou, Junlei, et al.2020ToxinsWoS-id: 000519117300073
Scopus-id: 2-s2.0-85078239328
1617
36Oligomerization is a key step for Bacillus thuringiensis Cyt1Aa insecticidal activity but not for toxicity against red blood cellsCoautor: Soberon, Mario, Anaya, Paulina, Onofre, Janette, Torres-Quintero M.C., et al.2020INSECT BIOCHEMISTRY AND MOLECULAR BIOLOGYWoS-id: 000521516600007
Scopus-id: 2-s2.0-85079540079
1013
37Functional Bacillus thuringiensis Cyt1Aa Is Necessary To Synergize Lysinibacillus sphaericus Binary Toxin (Bin) against Bin-Resistant and -Refractory Mosquito SpeciesCoautor: Soberon, Mario, Nascimento, Nathaly Alexandre, Torres-Quintero M.C., Molina S.L., et al.2020APPLIED AND ENVIRONMENTAL MICROBIOLOGYWoS-id: 000522978900017
Scopus-id: 2-s2.0-85082093682
1515
38The Cadherin Protein Is Not Involved in Susceptibility toBacillus thuringiensisCry1Ab or Cry1Fa Toxins inSpodoptera frugiperdaCoautor: SOBERON, MARIO, Zhang, Jianfeng, Jin, Minghui, Yang, Yanchao, et al.2020ToxinsWoS-id: 000551188000075
Scopus-id: 2-s2.0-85086354422
2129
39The Cyt1Aa toxin fromBacillus thuringiensisinserts into target membranes via different mechanisms in insects, red blood cells, and lipid liposomesCoautor: SOBERON, MARIO, Onofre, Janette, Pacheco, Sabino, Carmen Torres-Quintero, Mary, et al.2020JOURNAL OF BIOLOGICAL CHEMISTRYWoS-id: 000552758600027
Scopus-id: 2-s2.0-85088204248
66
40Rearrangement of N-terminal a-helices of bacillus thuringiensis Cry1Ab toxin essential for oligomer assembly and toxicityCoautor: Soberon, Mario, Pacheco, Sabino, Quiliche J.P.J., Gomez, Isabel, et al.2020ToxinsWoS-id: 000586956000001
Scopus-id: 2-s2.0-85092887053
56
41Characterization of two novel bacillus thuringiensis Cry8 toxins reveal differential specificity of protoxins or activated toxins against chrysomeloidea coleopteran superfamilyCoautor: Soberon, Mario, Shu, Changlong, Yan, Guixin, Huang, Shizhi, et al.2020ToxinsWoS-id: 000586977200001
Scopus-id: 2-s2.0-85092379787
45
42Bacillus thuringiensis Cry1Ab Domain III ß-22 Mutants with Enhanced Toxicity to Spodoptera frugiperda (J. E. Smith)Coautor: Soberon, Mario, Gomez, Isabel, Ocelotl, Josue, Sanchez, Jorge, et al.2020APPLIED AND ENVIRONMENTAL MICROBIOLOGYWoS-id: 000588227800009
Scopus-id: 2-s2.0-85094932770
57
43Coexistence of cry9 with the vip3A Gene in an Identical Plasmid of Bacillus thuringiensis Indicates Their Synergistic Insecticidal ToxicityCoautor: SOBERON, MARIO, Wang, Zeyu, Wang, Kui, Bravo, Alejandra, et al.2020JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRYWoS-id: 000595545400074
Scopus-id: 2-s2.0-85096589754
1012
44Bacillus thuringiensis targets the host intestinal epithelial junctions for successful infection of Caenorhabditis elegansCoautor: Soberon, Mario, Wan, Liting, Lin, Jian, Du, Hongwen, et al.2019ENVIRONMENTAL MICROBIOLOGYWoS-id: 000461231300015
Scopus-id: 2-s2.0-85061588979
1517
45The Cadherin Cry1Ac Binding-Region is Necessary for the Cooperative Effect with ABCC2 Transporter Enhancing Insecticidal Activity of Bacillus thuringiensis Cry1Ac ToxinCoautor: Soberón M., Ma Y., Zhang J., Xiao Y., et al.2019ToxinsWoS-id: 000487968300047
Scopus-id: 2-s2.0-85072527964
1622
46Insect hsp90 chaperone assists bacillus thuringiensis cry toxicity by enhancing protoxin binding to the receptor and by protecting protoxin from gut protease degradationCoautor: Soberon, Mario, Garcia-Gomez, Blanca I., Cano, Sayra N., Zagal, Erika E., et al.2019MbioWoS-id: 000500484800018
Scopus-id: 2-s2.0-85075531053
1216
47Characterization of the Cry1Ah resistance in Asian corn Borer and its cross-resistance to other Bacillus thuringiensis toxinsCoautor: Soberón M., Shabbir M.Z., Quan Y., Wang Z., et al.2018SCIENTIFIC REPORTSWoS-id: 000419668400008
Scopus-id: 2-s2.0-85040355719
7133
48Cry64Ba and Cry64Ca, two ETX/MTX2-type Bacillus thuringiensis insecticidal proteins active against hemipteran pestsCoautor: Soberón M., Liu Y., Wang Y., Shu C., et al.2018APPLIED AND ENVIRONMENTAL MICROBIOLOGYWoS-id: 000423770000012
Scopus-id: 2-s2.0-85040657808
2736
49Cell lines as models for the study of Cry toxins from Bacillus thuringiensis1ᵉʳ autor: Soberón M., Portugal L., Garcia-Gómez B.-I., Sánchez J., et al.2018INSECT BIOCHEMISTRY AND MOLECULAR BIOLOGYWoS-id: 000427100600008
Scopus-id: 2-s2.0-85040256066
1417
50Engineering Bacillus thuringiensis Cyt1Aa toxin specificity from dipteran to lepidopteran toxicityCoautor: Soberon, Mario, Torres-Quintero, Mary-Carmen, Gomez, Isabel, Pacheco, Sabino, et al.2018SCIENTIFIC REPORTSWoS-id: 000427926500033
Scopus-id: 2-s2.0-85044418520
2527
51Helix alpha-3 inter-molecular salt bridges and conformational changes are essential for toxicity of Bacillus thuringiensis 3D-Cry toxin familyCoautor: Soberon, Mario, Pacheco, Sabino, Gomez, Isabel, Sanchez, Jorge, et al.2018SCIENTIFIC REPORTSWoS-id: 000437830200027
Scopus-id: 2-s2.0-85049876104
1213
52Specific binding between Bacillus thuringiensis Cry9Aa and Vip3Aa toxins synergizes their toxicity against Asiatic rice borer (Chilo suppressalis)Coautor: Soberón M., Wang Z., Fang L., Zhou Z., et al.2018JOURNAL OF BIOLOGICAL CHEMISTRYWoS-id: 000439449700015
Scopus-id: 2-s2.0-85050393617
3537
53Evaluation of the Impact of Genetically Modified Cotton After 20 Years of Cultivation in Mexico2ᵒ autor: Soberon, Mario, Rocha-Munive, Martha G., Castaneda, Saul, Niaves, Esteban, et al.2018Frontiers in Bioengineering and BiotechnologyWoS-id: 000440279800001
Scopus-id: 2-s2.0-85057756140
4749
54Spodoptera frugiperda (J. E. Smith) aminopeptidase N1 is a functional receptor of the Bacillus thuringiensis Cry1Ca toxinCoautor: Soberon, Mario, Gomez, Isabel, Rodriguez-Chamorro, Daniel E., Flores-Ramirez, Gabriela, et al.2018APPLIED AND ENVIRONMENTAL MICROBIOLOGYWoS-id: 000441894000018
Scopus-id: 2-s2.0-85052560284
815
55Enhancement of Bacillus thuringiensis Cry1Ab and Cry1Fa toxicity to Spodoptera frugiperda by domain III mutations indicates there are two limiting steps in toxicity as defined by receptor binding and protein stabilityCoautor: Soberón M., Gómez I., Ocelotl J., Sánchez J., et al.2018APPLIED AND ENVIRONMENTAL MICROBIOLOGYWoS-id: 000446206900013
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56A single amino acid polymorphism in ABCC2 loop 1 is responsible for differential toxicity of Bacillus thuringiensis Cry1Ac toxin in different Spodoptera (Noctuidae) speciesCoautor: Soberón M., Liu L., Chen Z., Yang Y., et al.2018INSECT BIOCHEMISTRY AND MOLECULAR BIOLOGYWoS-id: 000446286500007
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57Identification of midgut membrane proteins from different instars of Helicoverpa armigera (Lepidoptera: Noctuidae) that bind to Cry1Ac toxinCoautor: Soberon, Mario, Sena Da Silva, Igor Henrique, Gomez, Isabel, Sanchez, Jorge, et al.2018PLOS ONEWoS-id: 000452307600019
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58The C-terminal protoxin region of Bacillus thuringiensis Cry1Ab toxin has a functional role in binding to GPI-anchored receptors in the insect midgutCoautor: Soberón M., Peña-Cardeña A., Grande R., Sánchez J., et al.2018JOURNAL OF BIOLOGICAL CHEMISTRYWoS-id: 000454685900031
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59Toxicity of Cry1A toxins from Bacillus thuringiensis to CF1 cells does not involve activation of adenylate cyclase/PKA signaling pathwayCoautor: Soberon, Mario, Portugal, Leivi, Munoz-Garay, Carlos, Martinez de Castro, Diana L., et al.2017INSECT BIOCHEMISTRY AND MOLECULAR BIOLOGYWoS-id: 000392557800003
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60Insecticidal specificity of Cry1Ah to Helicoverpa armigera is determined by binding of APN1 via domain II loops 2 and 3Coautor: Soberon, Mario, Zhou, Zishan, Liu, Yuxiao, Liang, Gemei, et al.2017APPLIED AND ENVIRONMENTAL MICROBIOLOGYWoS-id: 000393482200014
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61A single point mutation resulting in cadherin mislocalization underpins resistance against bacillus thuringiensis toxin in cotton bollwormCoautor: Soberon, Mario, Xiao, Yutao, Dai, Qing, Hu, Ruqin, et al.2017JOURNAL OF BIOLOGICAL CHEMISTRYWoS-id: 000395535100033
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62Holotrichia oblita Midgut Proteins That Bind to Bacillus thuringiensis Cry8-Like Toxin and Assembly of the H-oblita Midgut Tissue TranscriptomeCoautor: Soberon, Mario, Jiang, Jian, Huang, Ying, Shu, Changlong, et al.2017APPLIED AND ENVIRONMENTAL MICROBIOLOGYWoS-id: 000402386500023
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63FOXA transcriptional factor modulates insect susceptibility to Bacillus thuringiensis Cry1Ac toxin by regulating the expression of toxin-receptor ABCC2 and ABCC3 genesCoautor: Soberón M., Li J., Ma Y., Yuan W., et al.2017INSECT BIOCHEMISTRY AND MOLECULAR BIOLOGYWoS-id: 000411776200001
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64An intramolecular salt bridge in Bacillus thuringiensis Cry4Ba toxin is involved in the stability of helix a-3, which is needed for oligomerization and insecticidal activityCoautor: Soberon, Mario, Pacheco, Sabino, Gomez, Isabel, Sanchez, Jorge, et al.2017APPLIED AND ENVIRONMENTAL MICROBIOLOGYWoS-id: 000412029400018
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65Transgenic cotton co-expressing chimeric Vip3AcAa and Cry1Ac confers effective protection against Cry1Ac-resistant cotton bollwormCoautor: Soberon, Mario, Chen, Wen-bo, Lu, Guo-qing, Cheng, Hong-mei, et al.2017TRANSGENIC RESEARCHWoS-id: 000415954900005
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66Identification of Aminopeptidase-N2 as a Cry2Ab binding protein in Manduca sextaCoautor: Soberón, M., Onofre, J., Gaytán, M.O., Peña-Cardeña, A., et al.2017PeptidesWoS-id: 000417511300013
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67Identification of Bacillus thuringiensis Cry1AbMod binding-proteins from Spodoptera frugiperdaCoautor: Soberon, Mario, Martinez de Castro, Diana L., Garcia-Gomez, Blanca I., Gomez, Isabel, et al.2017PeptidesWoS-id: 000417511300014
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68ABCC2 is associated with Bacillus thuringiensis Cry1Ac toxin oligomerization and membrane insertion in diamondback mothCoautor: Soberón M., Ocelotl J., Sánchez J., Gómez I., et al.2017SCIENTIFIC REPORTSWoS-id: 000425913400004
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69Identification of Bacillus thuringiensis Cry1AbMod binding-proteins from Spodoptera frugiperdaCoautor: Soberón M., Martínez de Castro D.L., García-Gómez B.I., Gómez I., et al.2017PeptidesWoS-id: 000417511300014
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14
70Oligomerization of Cry9Aa in solution without receptor binding, is not related with insecticidal activityCoautor: Soberon, Mario, Fang, Longfa, Wang, Bo, Zhou, Zishan, et al.2016Electronic Journal Of BiotechnologyWoS-id: 000376595900008
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71Identification of an alkaline phosphatase as a putative Cry1Ac binding protein in Ostrinia furnacalis (Guenée)Coautor: Soberon, Mario, Jin, Tingting, Duan, Xiaoli, Bravo, Alejandra, et al.2016PESTICIDE BIOCHEMISTRY AND PHYSIOLOGYWoS-id: 000377926200010
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72Molecular cloning, expression, and identification of bre genes involved in glycosphingolipids synthesis in Helicoverpa armigera (Lepidoptera: Noctuidae)Coautor: Soberon, Mario, Zhang, Dandan, Xiao, Yutao, Dhiloo, Khalid Hussain, et al.2016JOURNAL OF ECONOMIC ENTOMOLOGYWoS-id: 000378041400056
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73Resistance to Bacillus thuringiensis Mediated by an ABC Transporter Mutation Increases Susceptibility to Toxins from Other Bacteria in an Invasive InsectCoautor: Soberon, Mario, Xiao, Yutao, Liu, Kaiyu, Zhang, Dandan, et al.2016PLOS PATHOGENSWoS-id: 000378152900043
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4549
74Genetic Basis of Cry1F-Resistance in a Laboratory Selected Asian Corn Borer Strain and Its Cross-Resistance to Other Bacillus thuringiensis ToxinsCoautor: Soberon, Mario, Wang, Yueqin, Wang, Yidong, Wang, Zhenying, et al.2016PLOS ONEWoS-id: 000381382100060
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75Mitochondrial markers to distinguish Spodoptera frugiperda populations associated with corn and cotton cropsCoautor: Soberon, Mario, Queiroz, Paulo Roberto, Ramiro, Carolina Almeida, Martins, Erica Soares, et al.2016PESQUISA AGROPECUARIA BRASILEIRAWoS-id: 000383114600036
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76Identification of ABCC2 as a binding protein of Cry1Ac onbrush border membrane vesicles from Helicoverpa armigera by an improved pull-down assayCoautor: Soberon, Mario, Zhou, Zishan, Wang, Zeyu, Liu, Yuxiao, et al.2016MICROBIOLOGYOPENWoS-id: 000383454800012
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77Role of UPR Pathway in Defense Response of Aedes aegypti against Cry11Aa Toxin from Bacillus thuringiensis (vol 14, 8467, 2013)Coautor: Soberon, Mario, Bedoya-Perez, Leidy P., Cancino-Rodezno, Angeles, Flores-Escobar, Biviana, et al.2016INTERNATIONAL JOURNAL OF MOLECULAR SCIENCESWoS-id: 000392280500065
00
78Evidence of field-evolved resistance of Spodoptera frugiperda to Bt corn expressing Cry1F in Brazil that is still sensitive to modified Bt toxinsCoautor: Soberon M., Monnerat R., Martins E., Macedo C., et al.2015PLOS ONEWoS-id: 000352135600012
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79Identification of Bacillus thuringiensis Cry3Aa toxin domain II loop 1 as the binding site of Tenebrio molitor cadherin repeat CR12Coautor: Soberón M., ZunigaNavarrete, F, Gómez I., Pena, G, et al.2015INSECT BIOCHEMISTRY AND MOLECULAR BIOLOGYWoS-id: 000353426600005
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80Bacillus thuringiensis Cry1AbMod toxin counters tolerance associated with low cadherin expression but not that associated with low alkaline phosphatase expression in Manduca sextaCoautor: Soberon, M, Gomez, I, Flores, B, Bravo, A2015PeptidesWoS-id: 000354572200018
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81Nitric oxide participates in the toxicity of Bacillus thuringiensis Cry1Ab toxin to kill Manduca sexta larvaeCoautor: Soberón M., Chavez C., Recio-Tótoro B., Flores-Escobar B., et al.2015PeptidesWoS-id: 000354572200019
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82Assembling of Holotrichia parallela (dark black chafer) midgut tissue transcriptome and identification of midgut proteins that bind to Cry8Ea toxin from Bacillus thuringiensisCoautor: Soberón M., Shu C., Tan S., Yin J., et al.2015APPLIED MICROBIOLOGY AND BIOTECHNOLOGYWoS-id: 000359739600021
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2121
83Dual mode of action of Bt proteins: Protoxin efficacy against resistant insectsCoautor: Soberón M., Tabashnik B.E., Zhang M., Fabrick J.A., et al.2015SCIENTIFIC REPORTSWoS-id: 000362561500001
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5059
84Role of the ABCC2 transporter in the mode of action of the Bacillus thuringiensis Cry1Ac toxin in the Diamond Back Moth Plutella xylostellaCoautor: Soberon, M, Ocelotl, J, Sanchez, J, Arroyo, R, et al.2015PROTEIN SCIENCEWoS-id: 000363658100024
00
85``Study of Bacillus thuringiensis Cry1Ab and Cry1Ac protoxins interaction with cadherin-like receptor from Manduca sexta''Coautor: Soberon, M, PenaCardena, A, Bravo, A, Gomez, I2015PROTEIN SCIENCEWoS-id: 000363658100026
00
86Improvement and efficient display of Bacillus thuringiensis toxins on M13 phages and ribosomesCoautor: Soberón M., Pacheco S., Cantón E., ZunigaNavarrete, F, et al.2015AMB ExpressWoS-id: 000365469300001
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87Binding and oligomerization of modified and native Bt toxins in resistant and susceptible Pink BollwormCoautor: Soberón M., Ocelotl J., Sánchez J., Arroyo R., et al.2015PLOS ONEWoS-id: 000366040000053
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1519
88Transcriptional cellular responses in midgut tissue of Aedes aegypti larvae following intoxication with Cry11Aa toxin from Bacillus thuringiensisCoautor: Soberón M., Canton P.E., Cancino-Rodezno A., Gill S.S., et al.2015Bmc GenomicsWoS-id: 000366099300001
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89Bacillus thuringiensis Cry1A toxins are versatile proteins with multiple modes of action: Two distinct pre-pores are involved in toxicityCoautor: Soberón M., Gómez I., Sánchez J., Munoz-Garay, C, et al.2014BIOCHEMICAL JOURNALWoS-id: 000334325400013
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90Membrane binding and oligomer membrane insertion are necessary but insufficient for Bacillus thuringiensis Cyt1Aa toxicityCoautor: Soberón M., Cantón P.E., López-Díaz J.A., Gill S.S., et al.2014PeptidesWoS-id: 000334507700035
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91Toxicity and mode of action of insecticidal Cry1A proteins from Bacillus thuringiensis in an insect cell line, CF-1Coautor: Soberón M., Portugal L., Gringorten J.L., Caputo G.F., et al.2014PeptidesWoS-id: 000334507700036
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92Synergistic activity of Bacillus thuringiensis toxins against Simulium spp. larvaeCoautor: Soberon M., Monnerat R., Pereira E., Teles B., et al.2014JOURNAL OF INVERTEBRATE PATHOLOGYWoS-id: 000341284400011
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2121
93Erratum for the Report: "Engineering modified Bt toxins to counter insect resistance" (Science (2007) (1640-1642))1ᵉʳ autor: Soberón M., Pardo-López L., López I., Gómez I., et al.2014ScienceScopus-id: 2-s2.0-84906093718
00
94Bacillus thuringiensis insecticidal three-domain Cry toxins: Mode of action, insect resistance and consequences for crop protection2ᵒ autor: Soberon, M, Pardo-Lopez, L, Bravo, A2013FEMS MICROBIOLOGY REVIEWSWoS-id: 000312302100002
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95Evolution of Bacillus thuringiensis Cry toxins insecticidal activityCoautor: Soberon, M, Bravo, A, Gomez, I, Porta, H, et al.2013MICROBIAL BIOTECHNOLOGYWoS-id: 000312656900003
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96Oligomerization of Cry11Aa from Bacillus thuringiensis has an important role in toxicity against Aedes aegyptiCoautor: Soberon, M, Munoz-Garay, C, Rodriguez-Almazan, C, Aguilar, JN, et al.2013APPLIED AND ENVIRONMENTAL MICROBIOLOGYWoS-id: 000314893300047
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00
97Erratum: Bacillus thuringiensis Cry1Ab mutants affecting oligomer formation are non-toxic to Manduca sexta larvae (Journal of Biological Chemistry (2007) 282 (21222-21229) DOI:10.1074/jbc.A113.701314)Coautor: Soberón M., Jiménez-Juárez N., Muñoz-Garay C., Gómez I., et al.2013JOURNAL OF BIOLOGICAL CHEMISTRYWoS-id: 000316564500051
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98Role of UPR pathway in defense response of Aedes aegypti against Cry11Aa toxin from Bacillus thuringiensisCoautor: Soberon, M, Bedoya-Perez, LP, Cancino-Rodezno, A, Flores-Escobar, B, et al.2013INTERNATIONAL JOURNAL OF MOLECULAR SCIENCESWoS-id: 000318017100104
Scopus-id: 2-s2.0-84877078536
2224
99A Tenebrio molitor GPI-Anchored alkaline phosphatase is involved in binding of Bacillus thuringiensis Cry3Aa to brush border membrane vesiclesCoautor: Soberón M., Zuniga-Navarrete, F, Gómez I., Pena, G, et al.2013PeptidesWoS-id: 000320849800012
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2524
100Cyt toxins produced by Bacillus thuringiensis: A protein fold conserved in several pathogenic microorganisms1ᵉʳ autor: Soberon, M, Lopez-Diaz, JA, Bravo, A2013PeptidesWoS-id: 000320849800013
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101Differential role of manduca sexta aminopeptidase-N and alkaline phosphatase in the mode of action of Cry1Aa, Cry1Ab, and Cry1Ac toxins from Bacillus thuringiensisCoautor: Soberon, M, Flores-Escobar, B, Rodriguez-Magadan, H, Bravo, A, et al.2013APPLIED AND ENVIRONMENTAL MICROBIOLOGYWoS-id: 000321255600004
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5259
102The mitogen-activated protein kinase p38 is involved in insect defense against Cry toxins from Bacillus thuringiensis (vol 40, pg 58, 2010)Coautor: Soberon, M, Cancino-Rodezno, A, Alexander, C, Villasenor, R, et al.2013INSECT BIOCHEMISTRY AND MOLECULAR BIOLOGYWoS-id: 000323801100012
Scopus-id: 2-s2.0-84881252091
00
103Oligomerization is a key step in Cyt1Aa membrane insertion and toxicity but not necessary to synergize Cry11Aa toxicity in Aedes aegypti larvaeCoautor: Soberón M., López-Diaz J.A., Cantón P.E., Gill S.S., et al.2013ENVIRONMENTAL MICROBIOLOGYWoS-id: 000326108700012
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2831
104Efficacy of Genetically Modified Bt Toxins Alone and in Combinations Against Pink Bollworm Resistant to Cry1Ac and Cry2AbCoautor: Soberón M., Tabashnik B.E., Fabrick J.A., Unnithan G.C., et al.2013PLOS ONEWoS-id: 000327162900082
Scopus-id: 2-s2.0-84892384716
4951
105Efficient production of Bacillus thuringiensis Cry1AMod toxins under regulation of cry3Aa promoter and single cysteine mutations in the protoxin regionCoautor: Soberón M., García-Gómez B.I., Sánchez J., de Castro, DLM, et al.2013APPLIED AND ENVIRONMENTAL MICROBIOLOGYWoS-id: 000327504200017
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88
106Correction: Dominant negative mutants of Bacillus thuringiensis Cry1Ab toxin function as anti-toxins: Demonstration of the role of oligomerization in toxicity (PLoS ONE)Coautor: Soberón M., Rodríguez-Almazán C., Zavala L.E., Muñoz-Garay C., et al.2013PLOS ONEScopus-id: 2-s2.0-84896531403
00
107Cadherin binding is not a limiting step for Bacillus thuringiensis subsp israelensis Cry4Ba toxicity to Aedes aegypti larvaeCoautor: Soberón M., Rodríguez-Almazán C., Reyes E.Z., Zuniga-Navarrete, F, et al.2012BIOCHEMICAL JOURNALWoS-id: 000303944200013
Scopus-id: 2-s2.0-84860159665
3335
108Comparative Proteomic Analysis of Aedes aegypti Larval Midgut after Intoxication with Cry11Aa Toxin from Bacillus thuringiensisCoautor: Soberón M., Cancino-Rodezno A., Lozano L., Oppert C., et al.2012PLOS ONEWoS-id: 000305341300057
Scopus-id: 2-s2.0-84861219024
5153
109Cadherin Binding Is Not a Limiting Step for Bacillus thuringiensis subs. israelensis Cry4Ba Toxicity to Aedes aegypti LarvaeCoautor: Soberon, M, Rodriguez-Almazan, C, Reyes, EZ, Gomez, I, et al.2012ToxiconWoS-id: 000305721800127
00
110Aedes aegypti alkaline phosphatase ALP1 is a functional receptor of Bacillus thuringiensis Cry4Ba and Cry11Aa toxinsCoautor: Soberón M., Jiménez A.I., Reyes E.Z., Cancino-Rodezno A., et al.2012INSECT BIOCHEMISTRY AND MOLECULAR BIOLOGYWoS-id: 000308271800010
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3336
111Bacillus thuringiensis Cry and Cyt mutants useful to counter toxin action in specific environments and to overcome insect resistance in the field1ᵉʳ autor: Soberon, M, Rodriguez-Almazan, C, Munoz-Garay, C, Pardo-Lopez, L, et al.2012PESTICIDE BIOCHEMISTRY AND PHYSIOLOGYWoS-id: 000311068900006
Scopus-id: 2-s2.0-84867997786
24
112Permeability Changes of Manduca sexta Midgut Brush Border Membranes Induced by Oligomeric Structures of Different Cry Toxins (vol 212, pg 61, 2006)Coautor: Soberón M., Munoz-Garay, C, Sánchez J., Darszon A., et al.2012JOURNAL OF MEMBRANE BIOLOGYWoS-id: 000311539200010
Scopus-id: 2-s2.0-84871292021
00
113Domains II and III of Bacillus thuringiensis Cry1Ab toxin remain exposed to the solvent after insertion of part of domain I into the membrane (Journal of Biological Chemistry (2011) 286 (19109-19117))Coautor: Soberón M., Zavala L.E., Pardo-López L., Cantón P.E., et al.2012JOURNAL OF BIOLOGICAL CHEMISTRYScopus-id: 2-s2.0-84867268934
00
114Cadherin, Alkaline Phosphatase, and Aminopeptidase N as Receptors of Cry11Ba Toxin from Bacillus thuringiensis subsp. jegathesan in Aedes aegyptiCoautor: Soberón M., Likitvivatanavong S., Chen J., Bravo A., et al.2011APPLIED AND ENVIRONMENTAL MICROBIOLOGYWoS-id: 000285550300001
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4245
115The Amino- and Carboxyl-Terminal Fragments of the Bacillus thuringensis Cyt1Aa Toxin Have Differential Roles in Toxin Oligomerization and Pore FormationCoautor: Soberón M., Rodriguez-Almazan C., de Escudero, IR, Cantón P.E., et al.2011BIOCHEMISTRYWoS-id: 000286160900008
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3032
116RNA interference in Lepidoptera: An overview of successful and unsuccessful studies and implications for experimental designCoautor: Soberón M., Terenius O., Papanicolaou A., Garbutt J.S., et al.2011JOURNAL OF INSECT PHYSIOLOGYWoS-id: 000287059000001
Scopus-id: 2-s2.0-78651424115
640683
117Binding of Bacillus thuringiensis subsp israelensis Cry4Ba to Cyt1Aa has an important role in synergismCoautor: Soberón M., Cantón P.E., Reyes E.Z., De Escudero I.R., et al.2011PeptidesWoS-id: 000288303200024
Scopus-id: 2-s2.0-79951509059
6468
118Role of MAPK p38 in the cellular responses to pore-forming toxinsCoautor: Soberon, M, Porta, H, Cancino-Rodezno, A, Bravo, A2011PeptidesWoS-id: 000288303200025
Scopus-id: 2-s2.0-79951512773
5357
119Multiple Receptors as Targets of Cry Toxins in MosquitoesCoautor: Soberon M., Likitvivatanavong S., Chen J., Evans A.M., et al.2011JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRYWoS-id: 000289050400012
Scopus-id: 2-s2.0-79953898140
4757
120Dominant Negative Phenotype of Bacillus thuringiensis Cry1Ab, Cry11Aa and Cry4Ba Mutants Suggest Hetero-Oligomer Formation among Different Cry ToxinsCoautor: Soberón M., Carmona D., Rodríguez-Almazán C., Munoz-Garay, C, et al.2011PLOS ONEWoS-id: 000290656300043
Scopus-id: 2-s2.0-79956068802
1924
121Domains II and III of Bacillus thuringiensis Cry1Ab Toxin Remain Exposed to the Solvent after Insertion of Part of Domain I into the MembraneCoautor: Soberon, M, Zavala, LE, Pardo-Lopez, L, Canton, PE, et al.2011JOURNAL OF BIOLOGICAL CHEMISTRYWoS-id: 000290785700080
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1722
122Bacillus thuringiensis: A story of a successful bioinsecticideCoautor: Soberón M., Bravo A., Likitvivatanavong S., Gill S.S.2011INSECT BIOCHEMISTRY AND MOLECULAR BIOLOGYWoS-id: 000293041200002
Scopus-id: 2-s2.0-79959256640
727822
123Tobacco plants expressing the Cry1AbMod toxin suppress tolerance to Cry1Ab toxin of Manduca sexta cadherin-silenced larvaeCoautor: Soberon, M, Porta, H, Jimenez, G, Cordoba, E, et al.2011INSECT BIOCHEMISTRY AND MOLECULAR BIOLOGYWoS-id: 000293041200012
Scopus-id: 2-s2.0-79959213377
109
124Efficacy of genetically modified Bt toxins against insects with different genetic mechanisms of resistanceCoautor: Soberón M., Tabashnik B.E., Huang F., Ghimire M.N., et al.2011Nature BiotechnologyWoS-id: 000298038700024
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96123
125Induction of Manduca sexta Larvae caspases expression in midgut cells by Bacillus thuringiensis Cry1Ab toxinCoautor: Soberón M., Porta H., Muñoz-Minutti C., Bravo A.2011Psyche (New York)Scopus-id: 2-s2.0-84856951261
04
126Towards a healthy control of insect pests:Potential use of microbial insecticidesCoautor: Soberón M., Bravo A., Del Rinconcastro M.C., Ibarra J.E.2011RSC Green ChemistryScopus-id: 2-s2.0-84898743875
07
127An alpha-amylase is a novel receptor for Bacillus thuringiensis ssp israelensis Cry4Ba and Cry11Aa toxins in the malaria vector mosquito Anopheles albimanus (Diptera: Culicidae)Coautor: Soberon M., Fernandez-Luna M.T., Lanz-Mendoza H., Gill S.S., et al.2010ENVIRONMENTAL MICROBIOLOGYWoS-id: 000274942300017
Scopus-id: 2-s2.0-77953974425
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128The mitogen-activated protein kinase p38 is involved in insect defense against Cry toxins from Bacillus thuringiensisCoautor: Soberón M., Cancino-Rodezno A., Alexander C., Villasenor, R, et al.2010INSECT BIOCHEMISTRY AND MOLECULAR BIOLOGYWoS-id: 000275381100007
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129Role of Alkaline Phosphatase from Manduca sexta in the Mechanism of Action of Bacillus thuringiensis Cry1Ab ToxinCoautor: Soberon, M, Arenas, I, Bravo, A, Gomez, I2010JOURNAL OF BIOLOGICAL CHEMISTRYWoS-id: 000276787800006
Scopus-id: 2-s2.0-77951246496
141149
130Single concentration tests show synergism among Bacillus thuringiensis subsp. israelensis toxins against the malaria vector mosquito Anopheles albimanusCoautor: Soberón M., Fernández-Luna M.T., Tabashnik B.E., Lanz-Mendoza H., et al.2010JOURNAL OF INVERTEBRATE PATHOLOGYWoS-id: 000278930900012
Scopus-id: 2-s2.0-77954860412
3942
131Mode of Action of Bacillus thuringiensis-Genetically Modified Cry1AbMod and Cry1AcMod Toxins Role of Alkaline pH in Toxin Oligomerization2ᵒ autor: Soberon, M, Munoz-Garay, C, Bravo, A2010Southwestern EntomologistWoS-id: 000284301400018
Scopus-id: 2-s2.0-78449303427
00
132New Insights into the Mode of Action of Cry1Ab Toxin Used in Transgenic Insect-resistant CropsCoautor: Soberon, M, Gomez, I, Arenas, I, Pacheco, S, et al.2010Southwestern EntomologistWoS-id: 000284301400019
Scopus-id: 2-s2.0-78449271977
22
133Enhancement of insecticidal activity of Bacillus thuringiensis Cry1A toxins by fragments of a toxin-binding cadherin correlates with oligomer formationCoautor: Soberón M., Pacheco S., Gómez I., Gill S.S., et al.2009PeptidesWoS-id: 000264791300019
Scopus-id: 2-s2.0-60749126637
7175
134Strategies to improve the insecticidal activity of Cry toxins from Bacillus thuringiensisCoautor: Soberon, M, Pardo-Lopez, L, Munoz-Garay, C, Porta, H, et al.2009PeptidesWoS-id: 000264791300020
Scopus-id: 2-s2.0-60649122092
7284
135Signaling versus punching hole: How do Bacillus thuringiensis toxins kill insect midgut cells?1ᵉʳ autor: Soberón M., Gill S.S., Bravo A.2009CELLULAR AND MOLECULAR LIFE SCIENCESWoS-id: 000265248200003
Scopus-id: 2-s2.0-67349236660
190202
136Dominant Negative Mutants of Bacillus thuringiensis Cry1Ab Toxin Function as Anti-Toxins: Demonstration of the Role of Oligomerization in ToxicityCoautor: Soberon, M, Rodriguez-Almazan, C, Zavala, LE, Munoz-Garay, C, et al.2009PLOS ONEWoS-id: 000266107300010
Scopus-id: 2-s2.0-65849141019
4448
137Modified Bacillus thuringiensis Toxins and a Hybrid B. thuringiensis Strain Counter Greenhouse-Selected Resistance in Trichoplusia niCoautor: Soberón M., Franklin M.T., Nieman C.L., Janmaat A.F., et al.2009APPLIED AND ENVIRONMENTAL MICROBIOLOGYWoS-id: 000269344200043
Scopus-id: 2-s2.0-69449090106
1921
138Cloning and Epitope Mapping of Cry11Aa-Binding Sites in the Cry11Aa-Receptor Alkaline Phosphatase from Aedes aegyptiCoautor: Soberon, M, Fernandez, LE, Martinez-Anaya, C, Lira, E, et al.2009BIOCHEMISTRYWoS-id: 000269702200017
Scopus-id: 2-s2.0-70349154252
3535
139Characterization of the mechanism of action of the genetically modified Cry1AbMod toxin that is active against Cry1Ab-resistant insectsCoautor: Soberón M., Munoz-Garay, C, Portugal L., Pardo-López L., et al.2009BIOCHIMICA ET BIOPHYSICA ACTA-BIOMEMBRANESWoS-id: 000271150000027
Scopus-id: 2-s2.0-70349527576
4245
140Oligomerization of Cry11Aa from Bacillus thuringiensis Has an Important Role in Toxicity against Aedes aegyptiCoautor: Soberon, M, Munoz-Garay, C, Rodriguez-Almazan, C, Aguilar, JN, et al.2009APPLIED AND ENVIRONMENTAL MICROBIOLOGYWoS-id: 000271944800030
Scopus-id: 2-s2.0-72949100332
2225
141Domain II Loop 3 of Bacillus thuringiensis Cry1Ab Toxin Is Involved in a "Ping Pong" Binding Mechanism with Manduca sexta Aminopeptidase-N and Cadherin ReceptorsCoautor: Soberón M., Pacheco S., Gómez I., Arenas I., et al.2009JOURNAL OF BIOLOGICAL CHEMISTRYWoS-id: 000272028400060
Scopus-id: 2-s2.0-70450265465
107118
142Aedes aegypti cadherin serves as a putative receptor of the Cry11Aa toxin from Bacillus thuringiensis subsp israelensisCoautor: Soberon M., Chen J., Aimanova K.G., Fernandez L.E., et al.2009BIOCHEMICAL JOURNALWoS-id: 000272135100004
Scopus-id: 2-s2.0-70450205302
7474
143Defense and death responses to pore forming toxinsCoautor: Soberón M., Cancino-Rodezno A., Porta H., Bravo A.2009BIOTECHNOL GENET ENGScopus-id: 2-s2.0-77749337438
020
144Thiamine limitation determines the transition from aerobic to fermentative-like metabolism in Rhizobium etli CE3Coautor: Soberon, M, Taboada, H, Encarnacion, S, Vargas, MD, et al.2008FEMS MICROBIOLOGY LETTERSWoS-id: 000251810300008
Scopus-id: 2-s2.0-37349069274
22
145Molecular basis of gene regulation by the THI-box riboswitchCoautor: Soberon M., Ontiveros-Palacios N., Smith A.M., Grundy F.J., et al.2008MOLECULAR MICROBIOLOGYWoS-id: 000253312400011
Scopus-id: 2-s2.0-38449096224
4647
146The pre-pore from Bacillus thuringiensis Cry1Ab toxin is necessary to induce insect death in Manduca sextaCoautor: Soberón M., Jiménez-Juárez N., Munoz-Garay, C, Gómez I., et al.2008PeptidesWoS-id: 000253848400021
Scopus-id: 2-s2.0-39149092363
2226
147Employing phage display to study the mode of action of Bacillus thuringiensis Cry toxinsCoautor: Soberón M., Fernández L.E., Gómez I., Pacheco S., et al.2008PeptidesWoS-id: 000253848400022
Scopus-id: 2-s2.0-39149112485
1012
148How to cope with insect resistance to Bt toxins?2ᵒ autor y autor de correspondencia: Soberon, M, Bravo, A2008TRENDS IN BIOTECHNOLOGYWoS-id: 000259938700008
Scopus-id: 2-s2.0-51249121783
168187
149Role of receptor interaction in the mode of action of insecticidal Cry and Cyt toxins produced by Bacillus thuringiensisCoautor: Soberón M., Gómez I., Pardo-López L., Muñoz-Garay C., et al.2007PeptidesWoS-id: 000243802500023
Scopus-id: 2-s2.0-33845637849
8694
150Mode of action of Bacillus thuringiensis Cry and Cyt toxins and their potential for insect controlCoautor y autor de correspondencia: Soberón M., Bravo A., Gill S.S.2007ToxiconWoS-id: 000245526000002
Scopus-id: 2-s2.0-33847624102
8721001
151Mode of action of mosquitocidal Bacillus thuringiensis toxins1ᵉʳ autor: Soberón M., Fernández L.E., Pérez C., Gill S.S., et al.2007ToxiconWoS-id: 000245866100001
Scopus-id: 2-s2.0-33947390038
5860
152A system for the directed evolution of the insecticidal protein from Bacillus thuringiensisCoautor: Soberon M., Ishikawa H., Hoshino Y., Motoki Y., et al.2007MOLECULAR BIOTECHNOLOGYWoS-id: 000247271300002
Scopus-id: 2-s2.0-35848950430
2425
153Bacillus thuringiensis Cry1Ab mutants affecting oligomer formation are non-toxic to Manduca sexta larvaeCoautor: Soberón M., Jiménez-Juárez N., Muñoz-Garay C., Gómez I., et al.2007JOURNAL OF BIOLOGICAL CHEMISTRYWoS-id: 000248047500049
Scopus-id: 2-s2.0-34547138902
8491
154Bacillus thuringiensis ssp. israelensis Cyt1Aa enhances activity of Cry11Aa toxin by facilitating the formation of a pre-pore oligomeric structureCoautor: Soberón M., Pérez C., Muñoz-Garay C., Portugal L.C., et al.2007CELLULAR MICROBIOLOGYWoS-id: 000250761100016
Scopus-id: 2-s2.0-35949000880
8790
155Engineering modified Bt toxins to counter insect resistance1ᵉʳ autor: Soberón M., Pardo-López L., López I., Gómez I., et al.2007ScienceWoS-id: 000251421700050
Scopus-id: 2-s2.0-36849068439
190202
156A Bacillus thurigiensis S-layer protein involved in toxicity against Epilachna varivestis (Coleoptera: Coccinellidae)Coautor: Soberón M., Peña G., Miranda-Rios J., De La Riva G., et al.2006APPLIED AND ENVIRONMENTAL MICROBIOLOGYWoS-id: 000234662800045
Scopus-id: 2-s2.0-33644863747
5258
157Role of tryptophan residues in toxicity of Cry1Ab toxin from Bacillus thuringiensisCoautor: Soberón M., Padilla C., Pardo-López L., De La Riva G., et al.2006APPLIED AND ENVIRONMENTAL MICROBIOLOGYWoS-id: 000234662800113
Scopus-id: 2-s2.0-33644858252
2926
158A GPI-anchored alkaline phosphatase is a functional midgut receptor of Cry11Aa toxin in Aedes aegypti larvaeCoautor: Soberón M., Fernandez L.E., Aimanova K.G., Gill S.S., et al.2006BIOCHEMICAL JOURNALWoS-id: 000235476700010
Scopus-id: 2-s2.0-32944464814
130137
159Functional display of Bacillus thuringiensis Cry1Ac toxin on T7 phageCoautor: Soberón M., Pacheco S., Gómez I., Sato R., et al.2006JOURNAL OF INVERTEBRATE PATHOLOGYWoS-id: 000237712900007
Scopus-id: 2-s2.0-33646154885
1514
160Structural and functional analysis of the pre-pore and membrane-inserted pore of Cry1Ab toxinCoautor: Soberón M., Pardo-López L., Gómez I., Muñoz-Garay C., et al.2006JOURNAL OF INVERTEBRATE PATHOLOGYWoS-id: 000239198300010
Scopus-id: 2-s2.0-33745748741
2123
161Structural changes of the Cry1Ac oligomeric pre-pore from Bacillus thuringiensis induced by N-acetylgalactosamine facilitates toxin membrane insertionCoautor: Soberón M., Pardo-López L., Gómez I., Rausell C., et al.2006BIOCHEMISTRYWoS-id: 000239922200018
Scopus-id: 2-s2.0-33748663289
6768
162Specific epitopes of domains II and III of Bacillus thuringiensis Cry1Ab toxin involved in the sequential interaction with cadherin and aminopeptidase-N receptors in Manduca sextaCoautor: Soberón M., Gómez I., Arenas I., Benitez I., et al.2006JOURNAL OF BIOLOGICAL CHEMISTRYWoS-id: 000241767600023
Scopus-id: 2-s2.0-33845947968
8286
163Genetic variability of Spodoptera frugiperda Smith (Lepidoptera: Noctuidae) populations from Latin America is associated with variations in susceptibility to Bacillus thuringiensis cry toxinsCoautor: Soberon M., Monnerat R., Martins E., Queiroz P., et al.2006APPLIED AND ENVIRONMENTAL MICROBIOLOGYWoS-id: 000242003800021
Scopus-id: 2-s2.0-33751008085
6069
164Permeability changes of Manduca sexta midgut brush border membranes induced by oligomeric structures of different cry toxinsCoautor: Soberón M., Muñoz-Garay C., Sánchez J., Darszon A., et al.2006JOURNAL OF MEMBRANE BIOLOGYWoS-id: 000243465600006
Scopus-id: 2-s2.0-33846282048
2930
165Microorganisms in the biological control of insects y phytopathogens [Los microorganismos en el control biológico de insectos y fitopatógenos]Coautor: Soberón M., Ibarra J.E., Castro Ma.C.D.R., Galindo E., et al.2006Revista Latinoamericana de MicrobiologiaScopus-id: 2-s2.0-34548019039
010
166Single amino acid mutations in the cadherin receptor from Heliothis virescens affect its toxin binding ability to Cry1A toxinsCoautor: Soberon M., Xie R., Zhuang M., Ross L.S., et al.2005JOURNAL OF BIOLOGICAL CHEMISTRYWoS-id: 000227395700118
Scopus-id: 2-s2.0-14844304661
112119
167Cry11Aa toxin from Bacillus thuringiensis binds its receptor in Aedes aegypti mosquito larvae through loop a-8 of domain IICoautor: Soberón M., Fernández L.E., Pérez C., Segovia L., et al.2005FEBS LETTERSWoS-id: 000230335600008
Scopus-id: 2-s2.0-21244484318
6064
168Bacillus thuringiensis subsp. israelensis Cyt1Aa synergizes Cry11Aa toxin by functioning as a membrane-bound receptorCoautor: Soberón M., Pérez C., Fernandez L.E., Sun J., et al.2005PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICAWoS-id: 000234174300013
Scopus-id: 2-s2.0-29444435452
192196
169Tryptophan Spectroscopy Studies and Black Lipid Bilayer Analysis Indicate that the Oligomeric Structure of Cry1Ab Toxin from Bacillus thuringiensis Is the Membrane-Insertion IntermediateCoautor: Soberón M., Rausell C., Muñoz-Garay C., Miranda-CassoLuengo R., et al.2004BIOCHEMISTRYWoS-id: 000187894800018
Scopus-id: 2-s2.0-0347357931
4852
170Cryptic endotoxic nature of Bacillus thuringiensis Cry1Ab insecticidal crystal proteinCoautor: Soberón M., Vazquez-Padron R.I., De La Riva G., Agüero G., et al.2004FEBS LETTERSWoS-id: 000222885400006
Scopus-id: 2-s2.0-3142610852
1621
171Oligomerization triggers binding of a Bacillus thuringiensis Cry1Ab pore-forming toxin to aminopeptidase N receptor leading to insertion into membrane microdomainsCoautor: Soberón M., Bravo A., Gómez I., Conde J., et al.2004BIOCHIMICA ET BIOPHYSICA ACTA-BIOMEMBRANESWoS-id: 000225173800005
Scopus-id: 2-s2.0-7744222624
323351
172Unfolding events in the water-soluble monomeric Cry1Ab toxin during transition to oligomeric pre-pore and membrane-inserted pore channelCoautor: Soberón M., Rausell C., Pardo-López L., Sánchez J., et al.2004JOURNAL OF BIOLOGICAL CHEMISTRYWoS-id: 000225960800024
Scopus-id: 2-s2.0-11244299331
4348
173Molecular basis for Bacillus thuringiensis Cry1Ab toxin specificity: Two structural determinants in the Manduca sexta Bt-R1 receptor interact with loops a-8 and 2 in domain II of Cy1Ab toxinCoautor: Soberón M., Gómez I., Dean D.H., Bravo A.2003BIOCHEMISTRYWoS-id: 000185170300016
Scopus-id: 2-s2.0-0041817553
9398
174Cadherin-like receptor binding facilitates proteolytic cleavage of helix a-1 in domain I and oligomer pre-pore formation of Bacillus thuringiensis Cry1Ab toxinCoautor: Soberón M., Gómez I., Sánchez J., Miranda R., et al.2002FEBS LETTERSWoS-id: 000174597900020
Scopus-id: 2-s2.0-0037181168
208218
175Heliothis virescens and Manduca sexta lipid rafts are involved in Cry1A toxin binding to the midgut epithelium and subsequent pore formationCoautor: Soberón M., Zhuang M., Oltean D.I., Gómez I., et al.2002JOURNAL OF BIOLOGICAL CHEMISTRYWoS-id: 000175096000069
Scopus-id: 2-s2.0-0037134485
132145
176Pore formation activity of Cry1Ab toxin from Bacillus thuringiensis in an improved membrane vesicle preparation from Manduca sexta midgut cell microvilliCoautor: Soberón M., Bravo A., Miranda R., Gómez I.2002BIOCHIMICA ET BIOPHYSICA ACTA-BIOMEMBRANESWoS-id: 000176036300007
Scopus-id: 2-s2.0-0037012968
2225
177Hydropathic complementarity determines interaction of epitope (869)HITDTNNK(876) in Manduca sexta Bt-R(1) receptor with loop 2 of domain II of Bacillus thuringiensis Cry1A toxins.Coautor: Soberón M., Gomez I., Miranda-Rios J., Rudiño-Piñera E., et al.2002JOURNAL OF BIOLOGICAL CHEMISTRYWoS-id: 000177509300097
Scopus-id: 2-s2.0-0037119455
5363
178Enhanced symbiotic performance by Rhizobium tropici glycogen synthase mutantsCoautor: Soberón M., Marroquí S., Zorreguieta A., Santamaría C., et al.2001JOURNAL OF BACTERIOLOGYWoS-id: 000166459500007
Scopus-id: 2-s2.0-0035153269
5563
179A purine-related metabolite negatively regulates fixNOQP expression in Sinorhizobium meliloti by modulation of fixK expression1ᵉʳ autor: Soberón M., Morera C., Kondorosi A., Lopez O., et al.2001MOLECULAR PLANT-MICROBE INTERACTIONSWoS-id: 000167564100015
Scopus-id: 2-s2.0-0035081486
69
180Mapping the Epitope in Cadherin-like Receptors Involved in Bacillus thuringiensis Cry1A Toxin Interaction Using Phage DisplayCoautor: Soberón M., Gómez I., Oltean D.I., Gill S.S., et al.2001JOURNAL OF BIOLOGICAL CHEMISTRYWoS-id: 000170346000037
Scopus-id: 2-s2.0-0035800768
9195
181A conserved RNA structure (thi box) is involved in regulation of thiamin biosynthetic gene expression in bacteriaCoautor y autor de correspondencia: Soberón M., Miranda-Ríos J., Navarro M.2001PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICAWoS-id: 000170539600051
Scopus-id: 2-s2.0-0035859828
192205
182Regulation of gene expression in response to oxygen in Rhizobium etli: Role of FnrN in fixNOQP expression and in symbiotic nitrogen fixationCoautor: Soberon M., Lopez O., Morera C., Miranda-Rios J., et al.2001JOURNAL OF BACTERIOLOGYWoS-id: 000172390500004
Scopus-id: 2-s2.0-0035212666
3839
183Expression pattern of Rhizobium etli ccmIEFH genes involved in c-type cytochrome maturationCoautor: Soberón M., Reyes J.D., Tabche M.-L., Morera C., et al.2000GeneWoS-id: 000087769900015
Scopus-id: 2-s2.0-0034733004
44
184Evidence for intermolecular interaction as a necessary step for pore-formation activity and toxicity of Bacillus thuringiensis Cry1Ab toxin1ᵉʳ autor: Soberón M., Pérez R.V., Nuñez-Valdéz M.E., Lorence A., et al.2000FEMS MICROBIOLOGY LETTERSWoS-id: 000089848100010
Scopus-id: 2-s2.0-0343714762
2429
185Rhizobium etli genetically engineered for the heterologous expression of Vitreoscilla sp. hemoglobin: Effects on free-living and symbiosisCoautor: Soberón M., Ramírez M., Valderrama B., Arredondo-Peter R., et al.1999MOLECULAR PLANT-MICROBE INTERACTIONSWoS-id: 000083157300009
Scopus-id: 2-s2.0-0344117846
4247
186Enhanced nitrogen fixation in a Rhizobium etli ntrC mutant that overproduces the Bradyrhizobium japonicum symbiotic terminal oxidase cbb31ᵉʳ autor: Soberón M., López O., Morera C., Girard M.D.L., et al.1999APPLIED AND ENVIRONMENTAL MICROBIOLOGYScopus-id: 2-s2.0-18744432599
024
187Increased respiration through cytochrome d enhances microaerobic N2 fixation in Klebsiella pneumoniaeCoautor y autor de correspondencia: Soberón M., Comaduran L.F., Lara F.1998BIOTECHNOLOGY LETTERSWoS-id: 000074917800011
Scopus-id: 2-s2.0-0031860237
24
188Characterization of cry genes in a Mexican Bacillus thuringiensis strain collectionCoautor: Soberón M., Bravo A., Sarabia S., Lopez L., et al.1998APPLIED AND ENVIRONMENTAL MICROBIOLOGYWoS-id: 000077396700050
Scopus-id: 2-s2.0-0031767475
277308
189Isolation of Sinorhizobium meliloti Tn5 mutants with altered cytochrome terminal oxidase expression and improved symbiotic performance2ᵒ autor: Soberon M., Yurgel S.N., Sharypova L.A., Miranda J., et al.1998FEMS MICROBIOLOGY LETTERSScopus-id: 2-s2.0-0032146114
015
190Expression of thiamin biosynthetic genes (thiCOGE) and production of symbiotic terminal oxidase cbb3 in Rhizobium etliCoautor: Soberón M., Miranda-Ríos J., Morera C., Taboada H., et al.1997JOURNAL OF BACTERIOLOGYWoS-id: A1997YG07500003
Scopus-id: 2-s2.0-0030731444
5759
191Genetic evidence for 5-aminoimidazole-4-carboxamide ribonucleotide (AICAR) as a negative effector of cytochrome terminal oxidase cbb3 production in Rhizobium etli1ᵉʳ autor: Soberón M., Lopez O., Miranda J., Tabche M.L., et al.1997MOL GEN GENETWoS-id: A1997XE49300006
Scopus-id: 2-s2.0-0030998452
1920
192Rhizobium etli cytochrome mutants with derepressed expression of cytochrome terminal oxidases and enhanced symbiotic nitrogen accumulationCoautor: Soberón M., Miranda J., Membrillo-Hernández J., Tabche M.L.1996APPLIED MICROBIOLOGY AND BIOTECHNOLOGYWoS-id: A1996UB00200029
Scopus-id: 2-s2.0-0029882070
1818
193Cloning and sequence analysis of the Rhizobium etli ccmA and ccmB genes involved in c-type cytochrome biogenesis2ᵒ autor y autor de correspondencia: Soberón M., Aguilar G.R.1996GeneWoS-id: A1996VZ14400019
Scopus-id: 2-s2.0-0030571513
87
194Efficiency of insecticidal crystal protein production in a Bacillus thuringiensis mutant with derepressed expression of the terminal oxidase aa3 during sporulationCoautor: Soberón M., Bravo A., Quintero R., Díaz C., et al.1993APPLIED MICROBIOLOGY AND BIOTECHNOLOGYWoS-id: A1993LP68700025
Scopus-id: 2-s2.0-0027312761
67
195Rhizobium phaseoli cytochrome c-deficient mutant induces empty nodules on Phaseolus vulgaris L1ᵉʳ autor: Soberón M., Aguilar G.R., Sánchez F.1993MOLECULAR MICROBIOLOGYWoS-id: A1993KW72900016
Scopus-id: 2-s2.0-0027536886
2119
196Regulation of nodule glutamine synthetase by CO2 levels in bean (Phaseolus vulgaris L.)Coautor: Soberón M., Ortega J.-L., Sánchez F., Flores M.L.1992PLANT PHYSIOLOGYWoS-id: A1992HG52500027
Scopus-id: 2-s2.0-0001565404
1415
197Isolation of Rhizobium phaseoli Tn5-induced mutants with altered expression of cytochrome terminal oxidases o and aa31ᵉʳ autor: Soberon M., Membrillo-Hernandez J., Aguilar G.R., Sanchez F.1990JOURNAL OF BACTERIOLOGYWoS-id: A1990CQ75200073
Scopus-id: 2-s2.0-0025217695
1617
198Isolation of a Rhizobium phaseoli cytochrome mutant with enhanced respiration and symbiotic nitrogen fixation.1ᵉʳ autor: Soberón M., Williams H.D., Poole R.K., Escamilla E.1989JOURNAL OF BACTERIOLOGYWoS-id: A1989R631300065
Scopus-id: 2-s2.0-0024486723
4540
199Role of glutamine aminotransferase in glutamine catabolism by Saccharomyces cerevisiae under microaerophilic conditions1ᵉʳ autor: Soberon M., Olamendi J., Rodriguez L., Gonzalez A.1989Journal Of General MicrobiologyWoS-id: A1989AX68500014
Scopus-id: 2-s2.0-0024441879
911
200Coordinated regulation of ammonium assimilation and carbon catabolism by glyoxylate in Saccharomyces cerevisiae.Coautor: Soberón M., González A., Rodríguez L., Folch J., et al.1987Journal Of General MicrobiologyWoS-id: A1987K019600017
Scopus-id: 2-s2.0-0023403013
11
201Glutamine degradation through the ?-amidase pathway in Saccharomyces cerevisiae1ᵉʳ autor: Soberon M., Gonzalez A.1987Journal Of General MicrobiologyWoS-id: A1987F610500002
Scopus-id: 2-s2.0-0023142666
2242
202Behaviour of temperate phage Mu in Salmonella typhi1ᵉʳ autor: Soberon M., Gama M.J., Richelle J., Martuscelli J.1986Journal Of General MicrobiologyWoS-id: A1986AXQ1700012
Scopus-id: 2-s2.0-0022640666
43
203NADP+-dependent glutamate dehydrogenase activity is impaired in mutants of Saccharomyes cerevisiae that lack aconitaseCoautor: Soberon M., Gonzalez A., Rodriquez L., Olivera H.1985Journal Of General MicrobiologyWoS-id: A1985ASM7300009
Scopus-id: 2-s2.0-0022376231
74
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Capítulos de libros (WoS y Scopus)

# Título del capítulo Título del libro Autores Alcance Año ISBN Fuente
1Strategies to Reduce Insecticide Use in Agricultural ProductionSustainable Food Science - A Comprehensive Approach: Volumes 1-4Soberón M., Bravo A., Blanco C.A., Capítulo de un Libro20239780128241660Scopus-id: 2-s2.0-85173305906
2Bacillus thuringiensis: Mechanisms and useEncyclopedia Of MicrobiologyBravo A., Soberón M., Gill S.S., Capítulo de un Libro20199780128117378Scopus-id: 2-s2.0-85079513551
3Insecticidal proteins from bacillus thuringiensis and their mechanism of actionInsecticidal Proteins From Bacillus Thuringiensis And Their Mechanism Of ActionBravo, A., Pacheco, S., Gómez, I., et al.Capítulo de un Libro20179783319566788WoS-id: 000441179600005
Scopus-id: 2-s2.0-85033995375
4Bt Resistance - Characterization and Strategies for GM Crops Producing Bacillus thuringiensis Toxins PrefaceBt Resistance: Characterization And Strategies For Gm Crops Producing Bacillus Thuringiensis ToxinsBravo, Alejandra, Soberon, Mario, Soberon, M, et al.Editorial Material20159781780644370WoS-id: 000368988000001
5Bt Resistance - Characterization and Strategies for GM Crops Producing Bacillus thuringiensis Toxins PrefaceBt Resistance: Characterization And Strategies For Gm Crops Producing Bacillus Thuringiensis ToxinsBravo, Alejandra, Soberon, Mario, Soberon, M, et al.Editorial Material20159781780644370WoS-id: 000368988000001
6Mechanism of action of Bacillus thuringiensis insecticidal toxins and their use in the control of insect pestsThe Comprehensive Sourcebook Of Bacterial Protein ToxinsBravo, Alejandra, Sanchez, Jorge, Mendoza, Gretel, et al.Article20159780128005897WoS-id: 000462136300031
Scopus-id: 2-s2.0-85054467099
7PrefaceBt Resistance: Characterization And Strategies For Gm Crops Producing Bacillus Thuringiensis ToxinsBravo A., Soberón M., Gao Y., Editorial Material20159781780644370Scopus-id: 2-s2.0-84940675885
8Countering pest resistance with genetically modified Bt toxinsBt Resistance: Characterization And Strategies For Gm Crops Producing Bacillus Thuringiensis ToxinsSoberón M., García-Gómez B.I., Pacheco S., et al.Capítulo de un Libro20159781780644370WoS-id: 000368988000015
Scopus-id: 2-s2.0-84940639552
9Different models of the mode of action of Bt 3d-Cry toxinsBt Resistance: Characterization And Strategies For Gm Crops Producing Bacillus Thuringiensis ToxinsBravo A., Gómez I., Soberón M., et al.Capítulo de un Libro20159781780644370WoS-id: 000368988000007
Scopus-id: 2-s2.0-84940702334
10Pore Formation by Cry ToxinsProteins: Membrane Binding And Pore FormationSoberon, M, Pardo, L, Munoz-Garay, C, et al.Article20109781441963260WoS-id: 000278492200011
Scopus-id: 2-s2.0-77955897890
11Defense and death responses to pore forming toxinsBiotechnology And Genetic Engineering Reviews, Vol 26Cancino-Rodezno, A, Porta, H, Soberon, M, et al.Review20109781907284489WoS-id: 000285867700003
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Obras con ISBN (Indautor)

# Título del documento Autores Alcance Año ISBN Fuente
1Algodón Gm En MéxicoEguiarte Fruns, Luis Enrique, Soberón Chávez, Mario, Bravo de la Parra, María Alejandra, et al.Libro Completo20199786073021043INDAUTOR
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Proyectos

# Nombre Participantes Convocatoria Fecha Inicio Fecha Fin
1Especificidad de las toxinas CRY de Bacillus thuringiensis. Mecanismos moleculares.MARIO SOBERON CHAVEZ,
Presupuesto de la UNAM asignado a la Dependencia01-01-201430-06-2021
2Estudio del mecanismo de resistencia de la palomilla de torso diamante a las toxinas cry1a de bacillus thuringiensis y estrategias moleculares para contender con la resistencia a estas toxinasMARIO SOBERON CHAVEZ,
Recursos PAPIIT01-01-201530-03-2018
3Mosquitocidal action of Bacillus thuringiensis toxins.MARIO SOBERON CHAVEZ,
Universidades, Centros, Institutos u Organismos Internacionales01-07-201631-07-2022
4Papel de las hélices a en la oligomerización y especificidad de la toxina CYT1AA de bacillus thuringiensis SUBSP. Israelensis.MARIO SOBERON CHAVEZ,
Recursos PAPIIT01-01-201831-12-2020
5Estudio del papel de las chaperonas Hsp90 y Hsp70 de Plutella xylostella en el modo de acción de las toxinas Cry1A de Bacillus thuringiensis.MARIO SOBERON CHAVEZ,
Recursos CONACYT13-09-201931-03-2023
6Identificación de los sitios de interacción de la toxina Vip3Aa con sus receptores en Spodoptera frugiperdaMARIO SOBERON CHAVEZ,
Recursos PAPIIT01-01-202331-12-2025
7Estudio del papel de las chaperonas Hsp90 y Hsp70 de plutella Xylostella en el modo de acción de las toxinas Cry1A de Bacillus thuringensis.MARIO SOBERON CHAVEZ,
Recursos CONAHCyT01-07-202330-11-2023
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Participación en Comités de Tesis

# Título del documento Tipo de Tesis Sinodales Autores Año Entidad Url
1Análisis del mecanismo de acción de toxinas de Bacillus thuringiensis activas contra Spodoptera frugiperdaTesis de DoctoradoMARIO SOBERON CHAVEZ; Martínez de Castro Jiménez, Diana Laura; 2019Instituto de Biotecnología,
2Papel de las hélices a-1 y a-2 en la especificidad de la toxina Cyt1Aa de Bacillus thuringiensis subsp. israelensisTesis de MaestríaMARIO SOBERON CHAVEZ; Anaya Cárdenas, Paulina; 2019Instituto de Biotecnología,
3El Papel del transportador ABCC2 en el modo de acción de la toxina Cry1Ac de Bacillus Thuringiensis en lepidópterosTesis de DoctoradoMARIO SOBERON CHAVEZ; Ocelotl Oviedo, Josué; 2017Instituto de Biotecnología,
4Papel de la fosfatasa alcalina ALP1 en el mecanismo de acción de las toxinas Cry de bacillus thuringiensis subespecie israelensis en aedes aegyptiTesis de MaestríaMARIO SOBERON CHAVEZ; Jiménez Reyes, Alan Israel; 2015Instituto de Biotecnología,
5Análisis de la participación del fragmento de protoxina C terminal de cry1AB(C)mod en su solubilidad y toxicidadTesis de MaestríaMA. DEL CARMEN BELTRAN NUÑEZ; ERNESTO ORTIZ SURI; MARIO SOBERON CHAVEZ; Villanueva Flores, Francisca; 2014Instituto de Biotecnología,
6Estudio de la interacción de la toxina cry3aa con una fosfatasa alcalina y el receptor caderina del intestino del coleóptero tenebrio molitorTesis de DoctoradoERNESTO ORTIZ SURI; MARIO SOBERON CHAVEZ; Zúñiga Navarrete, Fernando; 2014Instituto de Biotecnología,
7Análisis de la especificidad en toxicidad y sinergismo de la toxina Cyt1Aa de Bacillus thuringiensis ssp. israelensisTesis de MaestríaMARIO SOBERON CHAVEZ; Cantón Ojeda, Pablo Emiliano; 2011Instituto de Biotecnología,
8Análisis de variables para el despliegue de la toxina Cry3Aa en el fago filamentoso M13Tesis de MaestríaMARIO SOBERON CHAVEZ; Zúñiga Navarrete, Fernando; 2011Instituto de Biotecnología,
9Papel del asa 3 del dominio II de las toxinas Cry1A's de Bacillus thuringiensis en el mecanismo de toxicidad : un blanco potencial para modificar el reconocimiento de sus receptoresTesis de DoctoradoMARIO SOBERON CHAVEZ; Pacheco Guillen, Sabino; 2010Instituto de Biotecnología,
10Análisis de las regiones de interacción de las asas del dominio II de la toxina Cry4Ba con sus proteínas receptoras en Aedes aegyptiTesis de MaestríaMARIO SOBERON CHAVEZ; Reyes Fernández, Esmeralda Za-Nicthé; 2010Instituto de Biotecnología,
11Identificación del sitio de interacción de una fosfatasa alcalina de aedes aegypti con la toxina Cry 11 AaTesis de MaestríaMARIO SOBERON CHAVEZ; Lira Navarrete, Erandi; 2008Coordinación de Estudios de Posgrado, Instituto de Biotecnología,
12Identificación del receptor para la toxina Cry11Aa de Bacillus thuringiensis subespecie israelensis presente sobre las células intestinales de larvas de los epítopes involucrados en la interacción toxina-receptorTesis de DoctoradoMARIO SOBERON CHAVEZ; Fernández Altuna, Luisa Elena; 2006
13Papel del dominio III de la toxina Cry1Ab de Bacillus thuringiensis en la interaccion con los receptores de Manduca sextaTesis de MaestríaMARIO SOBERON CHAVEZ; Arenas Sosa, Ivan; 2006
14Identificacion del receptor para la toxina Cry11Aa de Bacillus thuringiensis subespecie israelensis presente sobre las celulas intestinales de larvas de Aedes aegypti : estudio molecular de los epitopes involucrados en la interacion toxina-receptorTesis de DoctoradoMARIO SOBERON CHAVEZ; Fernandez Luna, Luisa Elena; 2006
15Caracterizacion de un anticuerpo scFv que mimetiza el receptor natural de la proteina Cry1Ab de Bacillus thuringienisisTesis de DoctoradoMARIO SOBERON CHAVEZ; Gómez Gómez, Isabel; 2002
16Estudio de la regulacion de la expresion del operon ccmIEFH cromosomal y su participacion en la expresion de citocromos tipo C en Rhizobium etliTesis de MaestríaMARIO SOBERON CHAVEZ; Reyes Aguilar, Josue David; 2000
17Seleccion de fragmentos de anticuerpos (sc Fv) capaces de unirse a la [delta]-endotoxina cry 1 Ab de Bacillus thuringiensis mediante phage displayTesis de LicenciaturaMARIO SOBERON CHAVEZ; Peralta Gil, Martin; 1998
18Clonacion y análisis de secuencia de los genes ccmA y ccmB involucrados en la expresion de los citocromos de tipo C en Rhizobium etliTesis de DoctoradoJOSE EDGARDO ESCAMILLA MARVAN; MARIO SOBERON CHAVEZ; Aguilar Gutierrez, German Ruben; 1997
19Identificacion de genes involucrados en la expresion de citocromos tipo c y la oxidasa terminal aa3 de Rhizobium etilTesis de MaestríaMARIO SOBERON CHAVEZ; Tabche Barrera, María Luisa; 1995
20Genetica molecular de genes involucrados en la expresion de oxidasas terminales en Rhizobium etliTesis de DoctoradoMARIO SOBERON CHAVEZ; Miranda Ríos, Juan; 1995
21Clonación y caracterización de una secuencia de DNA relacionada con la expresión de los citocromos de tipo b y c y su relación con la fijación de nitrógeno en Rhizobium leguminosarum biovar phaseoliTesis de MaestríaMARIO SOBERON CHAVEZ; Aguilar Gutiérrez, Germán Rubén; 1991
22Regulacion de las oxidasas terminales alternas citocromo o y citocromo de y su relacion con la fijacion de nitrogeno en Rhizobium leguminosarum bv.phaseoliTesis de LicenciaturaMARIO SOBERON CHAVEZ; Membrillo Hernandez, Jorge; 1991
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Docencia Impartida

# Entidad Nivel Asignatura Año Semestre Alumnos
1Instituto de BiotecnologíaMaestríaSEMINARIO DE INVESTIGACIÓN III20232023-21
2Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACIÓN III20232023-21
3Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACIÓN III20222023-11
4Instituto de BiotecnologíaMaestríaSEMINARIO DE INVESTIGACIÓN II20222023-11
5Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACIÓN II20222023-11
6Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACIÓN I20222022-21
7Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACIÓN III20182019-11
8Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION II20182018-21
9Instituto de BiotecnologíaMaestríaCURSO IV20182018-21
10Instituto de BiotecnologíaMaestríaSEMINARIO DE INVESTIGACION III20182018-21
11Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION III20182018-21
12Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION III20172018-11
13Instituto de BiotecnologíaMaestríaSEMINARIO DE INVESTIGACION II20172018-11
14Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION II20172018-11
15Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACIÓN I20172017-21
16Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACIÓN II20172017-21
17Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACIÓN III20172017-21
18Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION II20162017-11
19Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION III20152016-11
20Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION II20152015-21
21Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION III20142014-21
22Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION III20142014-21
23Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION III20132014-11
24Instituto de BiotecnologíaMaestríaSEMINARIO DE INVESTIGACION III20132014-11
25Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION II20132014-11
26Instituto de BiotecnologíaMaestríaSEMINARIO DE INVESTIGACION II20132013-21
27Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION III20132013-21
28Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION II20132013-21
29Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION II20122013-11
30Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION I20122013-11
31Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION III20122012-21
32Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION III20122012-21
33Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION III20122012-21
34Instituto de BiotecnologíaMaestríaCURSO III20112012-12
35Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION II20112012-11
36Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION II20112012-11
37Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION II20112012-11
38Instituto de BiotecnologíaMaestríaCURSO IV20112012-15
39Instituto de BiotecnologíaMaestríaSEMINARIO DE INVESTIGACION III20112011-21
40Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION III20112011-21
41Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION III20102011-11
42Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION III20102011-11
43Instituto de BiotecnologíaMaestríaSEMINARIO DE INVESTIGACION II20102011-11
44Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION II20102011-11
45Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION II20102010-21
46Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION I20102010-21
47Instituto de BiotecnologíaMaestríaSEMINARIO DE INVESTIGACION I20102010-21
48Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION III20102010-21
49Instituto de BiotecnologíaMaestríaSEMINARIO DE INVESTIGACION III20102010-21
50Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION III20102010-21
51Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION III20102010-21
52Instituto de BiotecnologíaMaestríaCURSO IV20092010-17
53Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION II20092010-11
54Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION II20092010-11
55Instituto de BiotecnologíaMaestríaSEMINARIO DE INVESTIGACION II20092010-11
56Instituto de BiotecnologíaMaestríaCURSO III20092010-12
57Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION II20092010-11
58Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION I20092009-21
59Instituto de BiotecnologíaMaestríaSEMINARIO DE INVESTIGACION I20092009-21
60Instituto de BiotecnologíaMaestríaSEMINARIO DE INVESTIGACION III20092009-21
61Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION III20092009-21
62Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION III20092009-21
63Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION II20082009-11
64Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION III20082009-11
65Instituto de BiotecnologíaMaestríaSEMINARIO DE INVESTIGACION II20082009-11
66Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION II20082009-11
67Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION II20082008-21
68Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION I20082008-21
69Instituto de BiotecnologíaMaestríaSEMINARIO DE INVESTIGACION I20082008-21
70Instituto de BiotecnologíaMaestríaSEMINARIO DE INVESTIGACION III20082008-21
71Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION III20082008-21
72Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION III20082008-21
73Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION II20072008-11
74Instituto de BiotecnologíaMaestríaTRABAJO DE INVESTIGACION II20072008-11
75Instituto de BiotecnologíaLicenciaturaFRONTERAS EN LAS CIENCS GENOMIC. II20072008-11
76Instituto de BiotecnologíaLicenciaturaAREA DE CONCETRACION II20072008-11
77Instituto de BiotecnologíaMaestríaSEMINARIO DE INVESTIGACION II20072008-11
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Tutorías impartidas

# Entidad Nivel Plan de estudio Año Semestre
1Instituto de BiotecnologíaDoctoradoDoctorado en Bioquímicas20192019-2
2Instituto de BiotecnologíaDoctoradoDoctorado en Bioquímicas20182018-2
3Instituto de BiotecnologíaDoctoradoDoctorado en Bioquímicas20182019-1
4Instituto de BiotecnologíaMaestríaMaestría en Ciencias Bioquímicas20182018-2
5Instituto de BiotecnologíaMaestríaMaestría en Ciencias Bioquímicas20182019-1
6Instituto de BiotecnologíaMaestríaMaestría en Ciencias Bioquímicas20172017-2
7Instituto de BiotecnologíaMaestríaMaestría en Ciencias Bioquímicas20172018-1
8Instituto de BiotecnologíaDoctoradoDoctorado en Bioquímicas20172017-2
9Instituto de BiotecnologíaDoctoradoDoctorado en Bioquímicas20172018-1
10Instituto de BiotecnologíaDoctoradoDoctorado en Bioquímicas20162016-2
11Instituto de BiotecnologíaDoctoradoDoctorado en Bioquímicas20162017-1
12DoctoradoDoctorado en Bioquímicas20152015-2
13DoctoradoDoctorado en Bioquímicas20152016-1
14Instituto de BiotecnologíaDoctoradoDoctorado en Bioquímicas20152016-1
15DoctoradoDoctorado en Bioquímicas20142014-2
16DoctoradoDoctorado en Bioquímicas20142015-1
17DoctoradoDoctorado en Bioquímicas20132013-2
18DoctoradoDoctorado en Bioquímicas20132014-1
19MaestríaMaestría en Ciencias Bioquímicas20132013-2
20MaestríaMaestría en Ciencias Bioquímicas20132014-1
21MaestríaMaestría en Ciencias Bioquímicas20122012-2
22MaestríaMaestría en Ciencias Bioquímicas20122013-1
23DoctoradoDoctorado en Bioquímicas20122012-2
24DoctoradoDoctorado en Bioquímicas20122013-1
25Instituto de BiotecnologíaDoctoradoDoctorado en Ciencias Bioquímicas20122012-2
26Instituto de BiotecnologíaDoctoradoDoctorado en Ciencias Bioquímicas20112011-2
27Instituto de BiotecnologíaDoctoradoDoctorado en Ciencias Bioquímicas20112012-1
28Instituto de BiotecnologíaDoctoradoDoctorado en Ciencias Bioquímicas20102010-2
29Instituto de BiotecnologíaDoctoradoDoctorado en Ciencias Bioquímicas20102011-1
30Instituto de BiotecnologíaMaestríaMaestría en Ciencias Bioquímicas20102010-2
31Instituto de BiotecnologíaMaestríaMaestría en Ciencias Bioquímicas20102011-1
32Instituto de BiotecnologíaMaestríaMaestría en Ciencias Bioquímicas20092009-2
33Instituto de BiotecnologíaMaestríaMaestría en Ciencias Bioquímicas20092010-1
34Instituto de BiotecnologíaDoctoradoDoctorado en Ciencias Bioquímicas20092009-2
35Instituto de BiotecnologíaDoctoradoDoctorado en Ciencias Bioquímicas20092010-1

No se encuentran registros en la base de datos de reportes técnicos.

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Patentes Otorgadas

# Título Inventores Año Sección
1COMPOSICION DE UN BIOINSECTICIDA PARA EL CONTROL BIOLOGICO DE LARVAS DE MOSQUITOS, VECTORES DE ENFERMEDADES, CON EFECTIVIDAD ESTABILIZADA.MARIO SOBERON CHAVEZ, MARIA ALEJANDRA BRAVO DE LA PARRA, LEOBARDO SERRANO CARREON, 2015HUMAN NECESSITIES
2GENES CRY DE BACILLUS THURINGIENSIS MUTANTES Y METODOS DE USO.MARIO SOBERON CHAVEZ, ISABEL GOMEZ GOMEZ, MARIA ALEJANDRA BRAVO DE LA PARRA, 2016CHEMISTRY; METALLURGYHUMAN NECESSITIES
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No se encuentran registros en la base de datos de libros completos (Humanindex).

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Capítulos de libros (Humanindex)

# Título del libro Título del capítulo ISBN Editorial Año Fuente