Extended one generation reproductive toxicity study and effect on gut flora of genetically modified rice rich in β-carotene in wistar rats

The database contains 182 references relating to the Safety and Benefits of Biotechnology and "China".

References relating to "China":

  1. Extended one generation reproductive toxicity study and effect on gut flora of genetically modified rice rich in β-carotene in wistar rats
    (2023) Xia Y, Zuo S, Zheng Y, Yang W, Tang X, et al.
  2. 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
  3. A 90-day rodent feeding study with grain for genetically modified maize L4 conferring insect resistance and glyphosate tolerance
    (2023) Zhang J, Liu Y, Li S, Zhou Q, Zhang L, Zhang S, Zhou X, Wu C, Qian ZY
  4. 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
  5. Safety assessment of subchronic feeding of insect-resistant and herbicide-resistant transgenic soybeans to juvenile channel catfish (Ictalurus punctatus)
    (2023) Xiang D, Luo M, Wen Z, Chen X, Wang X, Xu X, Wei W, Xu J
  6. 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
  7. 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.
  8. 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
  9. The Role of Genetically-Modified (GM) Crops in Food Security
    (2022) Rasheed M, Awais M, Khalid M, Sohail A
  10. 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
  11. 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
  12. Biochemical analyses demonstrate that Bt maize has no adverse effects on Eisenia fetida
    (2022) Wu F, Jiang Z, Wang B, Yin J, Song X
  13. Impact of transgenic insect-resistant maize HGK60 with Cry1Ah gene on community components and biodiversity of arthropods in the fields
    (2022) Chen Y, Ren M, Pan L, Guan X, Tao J
  14. Economic Impacts of Commercialization of Genetically Modified Crops in China
    (2022) Liao W
  15. Impact assessment of genetically modified herbicide-tolerant cotton on arthropod communities
    (2022) Li D, Zhu X, Zhang K, Wang L, Zhang R, Liang C, Luo J, Cui J
  16. Assessment of the potential toxicity of insecticidal compounds to Peristenus spretus, a parasitoid of mirid bugs
    (2022) Zhao M, Li Y-H, Niu L, Chen L, Liang G
  17. Transgenic Technology Can Accelerate Cotton Breeding: Transgenic ScALDH21 Cotton Significantly Improve Drought Tolerance in Southern and Northern Xinjiang
    (2022) Yang H, Zhang D, Bozorov TA, Waheed A, Wang J, Li X, Daoyuan Z
  18. Unintended changes in transgenic maize cause no nontarget effects
    (2022) Wang Y, Liu Q, Song X, Yang x, Han L, Romeis J, Li Y
  19. Transgenic Bt cotton expressing Cry1Ac/1Ab does not have detrimental effects on the predator Arma chinensis through its prey Helicoverpa armigera
    (2022) Ma Y, Zhang M, Luo J, Ji J, Zhu X, Wang L, Zhang K, Li D, Cui J, Niu L
  20. A Three-Year Plant Study of Salt-Tolerant Transgenic Maize Showed No Effects on Soil Enzyme Activity and Nematode Community
    (2022) Zeng X, Pei T, Song Y, Guo P, Li X, Li H, Di H, Wang Z