2022 CottonGen Citations

Peer-reviewed papers/books citing CottonGen in 2022 (with links to publications)
 

  1. Sun, Y., Zhang, D., Zheng, H., Wu, Y., Mei, J., Ke, L., ... & Sun, Y. (2022). Biochemical and Expression Analyses Revealed the Involvement of Proanthocyanidins and/or Their Derivatives in Fiber Pigmentation of Gossypium stocksiiInternational journal of molecular sciences23(2), 1008.
  2. Malik, W. A., Afzal, M., Chen, X., Cui, R., Lu, X., Wang, S., ... & Ye, W. (2022). Systematic analysis and comparison of ABC proteins superfamily confer structural, functional and evolutionary insights into four cotton speciesIndustrial Crops and Products177, 114433.
  3. Miao, Z., Zhang, T., Xie, B., Qi, Y., & Ma, C. (2022). Evolutionary implications of the RNA N 6-methyladenosine methylome in plantsMolecular biology and evolution39(1), msab299.
  4. Hu, Z. L., Park, C. A., & Reecy, J. M. (2022). Bringing the Animal QTLdb and CorrDB into the future: meeting new challenges and providing updated servicesNucleic acids research50(D1), D956-D961.
  5. Saddique, M. A. B., Ali, Z., Sher, M. A., Farid, B., Ahmad, F., & Arshad, S. F. (2022). Gene Mapping in Cotton. In Cotton Breeding and Biotechnology (pp. 69-85). CRC Press.
  6. Aslam, M. Q., Naqvi, R. Z., Zaidi, S. S. E. A., Asif, M., Akhter, K. P., Scheffler, B. E., ... & Mansoor, S. (2022). Analysis of A Tetraploid Cotton Line Mac7 Transcriptome Reveals Mechanisms Underlying Resistance against the Whitefly Bemisia tabaciGene, 146200.
  7. Jin, Y., Li, J., Zhu, Q., Du, X., Liu, F., Li, Y., ... & Xue, F. (2022). GhAPC8 regulates leaf blade angle by modulating multiple hormones in cotton (Gossypium hirsutum L.)International Journal of Biological Macromolecules195, 217-228.
  8. Zhang, Y. J., Lan, Y., & Chen, B. (2021). ASDB: A comprehensive omics database for Anopheles sinensisGenomics113(3), 976-982.
  9. Feng, L., Su, Q., Yue, H., Wang, L., Gao, J., Xing, L., ... & Zhou, B. (2022). TIF41L, a putative candidate gene conferring both seed size and boll weight, was fine-mapped in an introgression line of Gossypium hirsutum-Gossypium arboreumPlant Science, 111197.
  10. Li, Y., Nie, T., Zhang, M., Zhang, X., Shahzad, K., Guo, L., ... & Xing, C. (2022). Integrated analysis of small RNA, transcriptome and degradome sequencing reveals that micro-RNAs regulate anther development in CMS cottonIndustrial Crops and Products176, 114422.
  11. Kabir, N., Lin, H., Kong, X., Liu, L., Qanmber, G., Wang, Y., ... & Zhao, N. (2022). Identification, evolutionary analysis and functional diversification of RAV gene family in cotton (G. hirsutum L.)Planta255(1), 1-16.
  12. Kumar, P., Nimbal, S., Budhlakoti, N., Singh, V., & Sangwan, R. S. (2022). Genetic diversity and population structure analysis for morphological traits in upland cotton (Gossypium hirsutum L.)Journal of Applied Genetics63(1), 87-101.
  13. An, M., Hong, D., Chang, D., Zhang, C., Fan, H., & Wang, K. (2022). Polymer amendment regulates cadmium migration in cadmium contaminated cotton field: Insights from genetic adaptation and phenotypic plasticityScience of The Total Environment807, 151075.
  14. Li, Y., Mo, T., Ran, L., Zeng, J., Wang, C., Liang, A., ... & Xiao, Y. (2022). Genome resequencing-based high-density genetic map and QTL detection for yield and fiber quality traits in diploid Asiatic cotton (Gossypium arboreum)Molecular Genetics and Genomics, 1-14.
  15. Kabir, N., Zhang, X., Liu, L., Qanmber, G., Zhang, L., Wang, Y. X., ... & Wang, G. (2022). RAD gene family analysis in cotton provides some key genes for flowering and stress tolerance in upland cotton G. hirsutumBMC genomics23(1), 1-14.
  16. Yadav, U. P., Evers, J. F., Shaikh, M. A., & Ayre, B. G. (2022). Cotton phloem loads from the apoplast using a single member of its nine-member sucrose transporter gene familyJournal of Experimental Botany73(3), 848-859.
  17. Huang, X., Kou, J., Jing, W., Han, X., Liu, D., Ghasemzadeh, S., ... & Zhang, Y. (2022). Transcriptomic and metabolomic reprogramming in cotton after Apolygus lucorum feeding implicated in enhancing recruitment of the parasitoid Peristenus spretusJournal of Pest Science95(1), 249-262.
  18. Wang, J., Zhang, Z., Gong, Z., Liang, Y., Ai, X., Sang, Z., ... & Zheng, J. (2022). Analysis of the genetic structure and diversity of upland cotton groups in different planting areas based on SNP markersGene809, 146042.