Biotech benefits

Drought resistance

The database contains 19 references relating to the Safety and Benefits of Biotechnology and "Drought resistance".

References relating to "Drought resistance":

  1. Negligible Impact of Drought-Resistant Genetically Modified Maize on Arthropod Community Structure Observed in a 2-Year Field Investigation
    (2022) Yin J-Q, Wang D-M, Liang J-G, Song X-y
  2. Comparison of bacterial diversity, root exudates and soil enzymatic activities in the rhizosphere of AVP1-transgenic and nontransgenic wheat (Triticum aestivum L.)
    (2022) Arshad M, Naqqash T, Tahir M, Leveau JH, Zaheer A, Tahira SA, et al.
  3. Physiological and Biochemical Response of Transgenic Cotton Plants to Drought Stress
    (2022) Zameer M, Shafique S, Shafique_S, Tahir U, Zahra N, Rashid B, Afzaal R
  4. 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
  5. Root colonization and rhizospheric community structure of Arbuscular Mycorrhizal Fungi in BADH transgenic maize BZ-136 and its recipient under salt stress and neutral soil
    (2021) Li R, Zeng X, Bai X, Qu J, Wang Z
  6. Overexpression of full-length and partial DREB2A enhances soybean drought tolerance
    (2022) Marinho JP, Pagliarini RF, Molinari MDC, Marcolino-Gomes J, et al.
  7. Two generation reproduction toxicity study of GmDREB3 gene modified wheat in Wistar rats
    (2021) Tian J, Ke X, Yuan Y, Yang W, Tang X, et al.
  8. Subchronic feeding toxicity studies of drought-tolerant transgenic wheat MGX11-10 in Wistar Han RCC rats
    (2020) Liu Y, Zhang S, Zhou Q, Li S, Zhang J, Zhang L, Jiang S, Zhang Q, Zhou X, Wu C, Gu Q, Qian ZY
  9. Risk assessment of genetically modified sugarcane expressing AVP1 gene
    (2019) Bhatti F, Asad S, Khan QM, Mobeen A, Iqbal MJ, Asif M
  10. Compositional equivalence of event IND-ØØ412-7 to non-transgenic wheat
    (2019) Ayala F, Fedrigo GV, Burachik M, Miranda PV
  11. Development, Adoption, and Management of Drought-Tolerant Corn in the United States
    (2019) McFadden J, Smith D, Wechsler S, Wallander S
  12. Safety assessment of the AtCYP78A7 protein expressed in genetically modified rice tolerant to abiotic stress
    (2018) Nam K-H, Kim DY, Shin HJ, Pack I-S, Park J-H, Yoon WK, Kim HB, Kim C-G
  13. Safety assessment of the AtCYP78A7 protein expressed in genetically modified rice tolerant to abiotic stress
    (2018) Nam K-H, Kim DY, Shin HJ, Pack I-S, Park J-H, Yoon WK, Kim HB, Kim C-G
  14. A Survey: Potential Impact of Genetically Modified Maize Tolerant to Drought or Resistant to Stem Borers in Uganda
    (2017) Wamatsembe IM, Asea G, Haefele SM
  15. Overexpression of an Arabidopsis thaliana galactinol synthase gene improves drought tolerance in transgenic rice and increased grain yield in the field
    (2017) Dedicova B, Ishitani M., Selvaraj MG, Ishizaki T, Valencia M, Ogawa S, Ogata T, Yoshiwara K, Maruyama K, Kusano M, Saito K, Takahashi F, Shinozaki K, Nakashima K
  16. Acute toxicity evaluation of drought-tolerant transgenic rice Agb0103 to Daphnia magna
    (2016) Oh S-D, Lee BK, Park S-Y, Yun D-W, Sohn S-I, Chang A, Suh SJ
  17. Comparative Study of CaMsrB2 Gene Containing Drought-Tolerant Transgenic Rice (Oryza sativa L.) and Non-Transgenic Counterpart
    (2014) , , , ,
  18. Transgene Pyramiding of the HVA1 and mtlD in T3 Maize (Zea mays L.) Plants Confers Drought and Salt Tolerance, along with an Increase in Crop Biomass
    (2013) , , , , ,
  19. Expression of rd29A::AtDREB1A/CBF3 in tomato alleviates drought-induced oxidative stress by regulating key enzymatic and non-enzymatic antioxidants
    (2013) , , , ,