A multi-generational risk assessment of Cry1F on the non-target soil organism Folsomia candida (Collembola) based on whole transcriptome profiling

The database contains 525 references relating to the Safety and Benefits of Biotechnology and "Insect Resistance".

References relating to "Insect Resistance":

  1. A multi-generational risk assessment of Cry1F on the non-target soil organism Folsomia candida (Collembola) based on whole transcriptome profiling
    (2019) Huang C, Chen W, Ke X, Li Y, Luan Y
  2. Environmental impacts of transgenic Bt rice and non-Bt rice cultivars in northern Iran
    (2019) Dastan S, Ghareyazie B, Pishgar SH
  3. Study and Comparison of Genetically and Non-Genetically Modified Rice from View Point of Possibility of Gene Transferring in Blood of Laboratory Animal
    (2019) Bahador HM, Gilda E, Mahsa A, Mohammad HE-P, Mohammad ER, Hossein F, Mehrnooush S
  4. Transgenic Cry1Ac cotton does not affect the development and fecundity of Chrysoperla carnea
    (2019) Ding R, Ma D, Uwais A, Wang D, Lui J
  5. Evaluation of Population Dynamics of Sucking Pests on Bt and Non Bt Cotton Cultivars
    (2019) Ali A, Farooq A
  6. Influence of Cry1Ac Toxin From Bt Cotton on the Soil Microbiota
    (2019) Fernandes MG, de Araújo RP, Costa EN, Zangirolymo ACTA, Pereira RM
  7. No Effect of Bt-transgenic Rice on the Tritrophic Interaction of the Stored Rice, the Maize Weevil Sitophilus Zeamais and the Parasitoid Wasp Theocolax elegans
    (2019) Tang Q, Yang Z, Han R, Zhang Y, Shen C, Wang J
  8. Influence of Cry1Ac Toxin From Bt Cotton on the Soil Microbiota
    (2019) Fernandes MG, de Araújo RP, Costa EN, Zangirolymo ACTA, Pereira RM
  9. Presence of Cry1Ab in the Bt maize – aphid (Rhopalosiphum maidis) – ladybeetle (Propylea japonica) system has no adverse effects on insect biological parameters
    (2019) Shu Y, Du Y, Wang J
  10. The impact of Bt maize expressing the Cry1Ac protein on non-target arthropods
    (2019) Xing Y, Qin Z, Feng M, Li A, Zang L, Wang Y, Dong X, Zang Y, Shi W
  11. A proteomic-based approach to study underlying molecular responses of the small intestine of Wistar rats to genetically modified corn (MON810)
    (2019) Al-Harbi A, Lary S, Edwards MG, Qusti S, Cockburn A, Poulsen M, Gatehouse AMR
  12. Twenty-one years of using insect resistant (GM) maize in Spain and Portugal: farm-level economic and environmental contributions
    (2019) Brookes G
  13. Use of Taxonomic and Trait-Based Approaches to Evaluate the Effects of Transgenic Cry1Ac Corn on the Community Characteristics of Soil Collembola
    (2019) Song X, Chang L, Reddy GVP, Zhang L, Fan C, Wang B
  14. Impact of Bt cotton expressing single (Cry1Ac) and dual toxins (Cry1Ac and Cry2Ab) on the fitness of the predator Chrysoperla zastrowi sillemi (Esben-Petersen): prey-mediated tri-trophic analysis
    (2018) Shera PS, Karmaker P, Sharma S, Sangha KS
  15. Responses of soil enzymatic activities to transgenic Bacillus thuringiensis (Bt) crops – A global meta-analysis
    (2019) Li Z, Cui J, Mi Z, Tian D, Wang J, Ma Z, Wang B, Chen HYH, Niu S
  16. Results of a 16-week Safety Assurance Study with Rats Fed Genetically Modified Bt Maize: Effect on Growth and Health Parameters
    (2018) Szymczyk B, Szymczyk W, Świątkiewicz S, Kwiatek K, Sieradzki Z, Mazur M, Bednarek D, Reichert M
  17. Effects of Transgenic Bt Rice Containing the Cry1Ab Protein on the Gastrointestinal Health of Highly Inbred Wuzhishan Pigs after Two Generations of Feeding
    (2018) Liu Q, Yang W, Li M, Wang Y, Zhang H, Wu Y, Gao H, Han Y, Bu X, Zeng S
  18. History, status and impact of genetically modified crops in India
    (2018) Sudha RM, Satish Y, Rani C, Prasad NVVSD, Bharthi S, Sri LB, Ratna KS
  19. Effects of Cry1Ab-expressing Bt rice straw return on juvenile and adult Eisenia fetida
    (2019) Li J, Shu Y, wang F, Wang J
  20. Developmental stage has a greater effect than Cry1Ac expression in transgenic cotton on the phyllosphere mycobiome
    (2018) Pan J, Lv X, Jin D, Bai Z, Qi H, Zhang H, Abbas A, Zhuang G