Biotech benefits

Insect Res. (BT)

The database contains 652 references relating to the Safety and Benefits of Biotechnology and "Insect Res. (BT)".

References relating to "Insect Res. (BT)":

  1. Transgenic cotton expressing Mpp51Aa2 does not adversely impact beneficial non-target hemiptera in the field
    (2023) Asiimwe P, Brown CR, Ellsworth PC, Reisig DD, Bertho L, Jiang C, et al.
  2. A sub-chronic feeding study of dual toxin insect-resistant transgenic maize (CEMB-413) on Wistar rats
    (2023) Liaqat A, Salisu IB, Bakhsh A, Ali Q, Imran A, Ali MA
  3. Assessment of Cry1Ac and Cry2Ab proteins in pollen of various transgenic cotton cultivars and effect on Apis mellifera L. colonies’ development
    (2023) Bajaj K, Chhuneja PK, Singh J, Choudhary A, Mohindru B
  4. Chronic Toxicity of Genetically Modified Maize with Cry1Ab-ma Gene and Its Effect on Serum Metabolites in Rats
    (2023) Wang Y, Hu Y-C, Lu J-X, Mao D-Q, Wang R, Liu X-B, Chen J, Wu W-X, Li M
  5. Genetically modified DP915635 maize is agronomically and compositionally comparable to non-genetically modified maize
    (2023) Anderson JA, Mickelson J, Fast Bj, Smith N, Pauli RC, Walker C
  6. Subchronic Toxicological Evaluation of Xiushui 134Bt Transgenic Insect-Resistant Rice in Rats
    (2023) Yang R, Piao Z, Tang J, Wan C, Lee G, Bai J
  7. Assessment of genetically modified soybean MON 87701 for renewal authorisation under Regulation (EC) No 1829/2003 (application EFSA-GMO-RX-021)
    (2022) EFSA Panel on Genetically Modified Organisms (GMO)
  8. Bt and G10evo-EPSPS Protein Expressed in ZDAB3 Corn Has No Impact on Nutritional Composition and Toxicological Safety
    (2022) Yu X, Chen G, Zhou Z, Chen X, He X, Jiao Y, Wang P
  9. Evaluation of the impact of transgenic maize BT799 on growth, development and reproductive function of Sprague-Dawley rats in three generations
    (2022) Zhang D, Dong S, Zhang Z, Yu C, Xu J, Wang C, Liu Y
  10. Prey-mediated effects of mCry51Aa2-producing cotton on the predatory nontarget bug Orius majusculus (Reuter)
    (2023) Boss A, Romeis J, Meissle M
  11. Refuge areas favor the presence of predators and herbivores in Bt soybean: a landscape perspective
    (2022) Abbate SL, Madeira F, Bentancur O, Altier N, Pons X
  12. Bt maize can provide non-chemical pest control and enhance food safety in China
    (2023) Yang x, Zhao S, Liu B, Gao Y, Hu C, Li W, Yang Y, LI G, Wang L, et al.
  13. Assessment of genetically modified maize MON 95379 for food and feed uses, under Regulation (EC) No 1829/2003 (application EFSA-GMO-NL-2020-170)
    (2022) EFSA Panel on GMOs
  14. Bt-maize in neotropical arthropod food webs: community-stress or lack thereof?
    (2023) Zuim V, Godoi CTD, Marques VM, Haro MM, Gontijo LM, Guedes RNC
  15. Climate change did not alter the effects of Bt maize on soil Collembola in northeast China
    (2022) Wang B, Yin J, Wu F, Wang D, Jiang Z, Song X
  16. Genetically Modified (GM) Crop Use 1996-2020: Environmental Impacts Associated with Pesticide Use CHANGE
    (2022) Brookes G
  17. Genetically modified crops do not present variations in pollen viability and morphology when compared to their conventional counterparts
    (2023) Soares D, Vertuan H, Bacalhau F, Jose M, Crivellari A, Belchior GG, Berger GU
  18. Transgenic Maize Has Insignificant Effects on the Diversity of Arthropods: A 3-Year Study
    (2022) Ren Z, Yang M, He H, Ma Y, Zhou Y, Liu B, Xue K
  19. Transgenic cotton expressing Cry1B protein has no adverse effect on predatory insect Propylea Japonica
    (2022) Li Y, Diao F, Zhu X, Wang L, Zhang K, Li D, Ji J, Niu L, Gao X, Luo J, Cui J
  20. Diversity and Abundance of Soil Collembola during GM Rice Overexpressing Cry1B-Cry1Aa Cultivations at Four Confined Field Trials in West Java
    (2022) Suhardjono YR, Estiati A, Rahmawati S, Nugroho S