2023 CottonGen Citations

Peer-reviewed papers/books citing CottonGen in 2023 (128) with links to publications. 
 

1.  Yang, Z., Wang, J., Huang, Y., Wang, S., Wei, L., Liu, D., ... & Yang, Q. Y. (2023). CottonMD: a multi-omics database for cotton biological study. Nucleic Acids Research, 51(D1), D1446-D1456.
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2. Zheng, J., Wen, S., Yu, Z., Luo, K., Rong, J., & Ding, M. (2023). Alternative Splicing during Fiber Development in G. hirsutum. International Journal of Molecular Sciences, 24(14), 11812.
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3. Gao, W., Chen, Q., Fu, J., Jiang, H., Sun, F., Geng, S., ... & Chen, Q. (2023). Using association mapping and local interval haplotype association analysis to improve the cotton drought stress response. Plant Science, 335, 111813.
4. He, J., Xu, Z., Azhar, M. T., Zhang, Z., Li, P., Gong, J., ... & Shang, H. (2023). Comparative transcriptional and co-expression network analysis of two upland cotton accessions with extreme phenotypic differences reveals molecular mechanisms of fiber development. Frontiers in Plant Science, 14.
5. Zhao, L., Wang, Y., Cui, R., Cui, Y., Lu, X., Chen, X., ... & Ye, W. (2023). Analysis of the histidine kinase gene family and the role of GhHK8 in response to drought tolerance in cotton. Physiologia Plantarum, 175(5), e14022.
6. Qiao, K., Lv, J., Chen, L., Wang, Y., Ma, L., Wang, J., ... & Fan, S. (2023). GhSTP18, a member of sugar transport proteins family, negatively regulates salt stress in cotton. Physiologia Plantarum, 175(4), e13982.
7. Hussain, A., Farooq, M., Naqvi, R. Z., Aslam, M. Q., Siddiqui, H. A., Amin, I., ... & Mansoor, S. (2023). Whole-genome resequencing deciphers new insight into genetic diversity and signatures of resistance in cultivated cotton Gossypium hirsutum. Molecular Biotechnology, 65(1), 34-51.
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8. Feng, Y., Wang, Y., Lu, H., Li, J., Akhter, D., Liu, F., ... & Pan, R. (2023). Assembly and phylogenomic analysis of cotton mitochondrial genomes provide insights into the history of cotton evolution. The Crop Journal.
9. Zhang, L., Yu, Y., Zhang, M., Rong, K., Wu, Y., Zhang, M., & Hu, H. (2023). Genome-wide identification of xylan glucuronosyltransferase family in cotton and function characterization of GhGUX5 in regulating Verticillium wilt resistance. International Journal of Biological Macromolecules, 124795.
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10. Cheng, C., Nie, H., Li, H., Adjibolosoo, D., Li, B., Jiang, K., ... & Hua, J. (2023). Identification of fertility restoration candidate genes from a restorer line R186 for Gossypium harknessii cytoplasmic male sterile cotton. BMC Plant Biology, 23(1), 1-15.
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11. Kabir, N., Wahid, S., Sarfraz, S., Khan, Z., Waheed, U., Siddique, M., ... & Qanmber, G. (2023). Identification and comparative analysis of Histidine phosphotransfer (HP) genes reveal their role in cotton development and stress tolerance. South African Journal of Botany, 159, 356-366.
12. Bano, N., Fakhrah, S., Lone, R. A., Mohanty, C. S., & Bag, S. K. (2023). Genome-wide identification and expression analysis of the HD2 protein family and its response to drought and salt stress in Gossypium species. Frontiers in Plant Science, 14, 1109031.
13. Li, X., Hou, S., Feng, M., Xia, R., Li, J., Tang, S., ... & Wang, X. (2023). MDSi: Multi-omics Database for Setaria italica. BMC Plant Biology, 23(1), 1-8.
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14. Zeng, J., Yao, D., Luo, M., Ding, L., Wang, Y., Yan, X., ... & Xiao, Y. (2023). Fiber-specific increase of carotenoid content promotes cotton fiber elongation by increasing abscisic acid and ethylene biosynthesis. The Crop Journal.
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15. Thyssen, G. N., Condon, B. D., Hinchliffe, D. J., Zeng, L., Naoumkina, M., Jenkins, J. N., ... & Fang, D. D. (2023). Flame resistant cotton lines generated by synergistic epistasis in a MAGIC population. PloS one, 18(1), e0278696.
16. Shockey, J., Gilbert, M. K., & Thyssen, G. N. (2023). A mutant cotton fatty acid desaturase 2-1d allele causes protein mistargeting and altered seed oil composition. BMC Plant Biology, 23(1), 147.
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17. Naoumkina, M., & Kim, H. J. (2023). Bridging molecular genetics and genomics for cotton fiber quality improvement. Crop Science.
18. Zhang, X., Feng, J., Zhao, R., Cheng, H., Ashraf, J., Wang, Q., ... & Zuo, D. (2023). Functional characterization of the GhNRT2. 1e gene reveals its significant role in improving nitrogen use efficiency in Gossypium hirsutum. PeerJ, 11, e15152.
19. Atella, A. L., Grossi-de-Sá, M. F., & Alves-Ferreira, M. (2023). Cotton promoters for controlled gene expression. Electronic Journal of Biotechnology.
20. ​Wen, X., Chen, Z., Yang, Z., Wang, M., Jin, S., Wang, G., ... & Zhu, Y. (2023). A comprehensive overview of cotton genomics, biotechnology and molecular biological studies. Science China Life Sciences, 1-43.
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21. Xue, T., Liu, L., Zhang, X., Li, Z., Sheng, M., Ge, X., ... & Su, Z. (2023). Genome-Wide Investigation and Co-Expression Network Analysis of SBT Family Gene in Gossypium. International Journal of Molecular Sciences, 24(6), 5760.
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22.   Wang, N., Li, Y., Meng, Q., Chen, M., Wu, M., Zhang, R., ... & Lin, Z. (2023). Genome and haplotype provide insights into the population differentiation and breeding improvement of Gossypium barbadense. Journal of Advanced Research.
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23. Liu, J., Liu, J., Wang, H., Khan, A., Xu, Y., Hou, Y., ... & Cai, X. (2023). Genome wide identification of GDSL gene family explores a novel GhirGDSL26 gene enhancing drought stress tolerance in cotton. BMC Plant Biology, 23(1), 1-18.
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24. Niu, H., Kuang, M., Huang, L., Shang, H., Yuan, Y., & Ge, Q. (2023). Lint percentage and boll weight QTLs in three excellent upland cotton (Gossypium hirsutum): ZR014121, CCRI60, and EZ60. BMC Plant Biology, 23(1), 179.
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25. Aboughanem-Sabanadzovic, N., Allen, T. W., Frelichowski, J., Scheffler, J., & Sabanadzovic, S. (2023). Discovery and Analyses of Caulimovirid-like Sequences in Upland Cotton (Gossypium hirsutum). Viruses, 15(8), 1643.
26. Sun, R., Qin, T., Wall, S. B., Wang, Y., Guo, X., Sun, J., ... & Zhang, B. (2023). Genome-wide identification of KNOX transcription factors in cotton and the role of GhKNOX4-A and GhKNOX22-D in response to salt and drought stress. International Journal of Biological Macromolecules, 226, 1248-1260.
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27. Huo, W. Q., Zhang, Z. Q., Ren, Z. Y., Zhao, J. J., Song, C. X., Wang, X. X., ... & Ma, X. F. (2023). Unraveling genomic regions and candidate genes for multiple disease resistance in upland cotton using meta-QTL analysis. Heliyon, 9(8).
28. Schoonmaker, A. N., Hulse-Kemp, A. M., Youngblood, R. C., Rahmat, Z., Atif Iqbal, M., Rahman, M. U., ... & Scheffler, J. A. (2023). Detecting Cotton Leaf Curl Virus Resistance Quantitative Trait Loci in Gossypium hirsutum and iCottonQTL a New R/Shiny App to Streamline Genetic Mapping. Plants, 12(5), 1153.
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29. Shrestha, N., Zhang, K., Gowda, S. A., Abdelraheem, A., Jones, D. C., & Kuraparthy, V. (2023). Identification of quantitative trait loci for fiber quality, yield, and plant height traits in Upland cotton. Crop Science.
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30. Liu, Q., Wang, Y., Fu, Y., Du, L., Zhang, Y., Wang, Q., ... & Li, C. (2023). Genetic dissection of lint percentage in short-season cotton using combined QTL mapping and RNA-seq. Theoretical and Applied Genetics, 136(9), 205.
31. Chávez Montes, R. A., Ulloa, M., Biniashvili, T., Zackay, A., Kfir, N., Lopez-Arredondo, D., & Herrera-Estrella, L. (2023). Assembly and annotation of the Gossypium barbadense L.‘Pima-S6’genome raise questions about the chromosome structure and gene content of Gossypium barbadense genomes. BMC genomics, 24(1), 1-19.
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32. Meng, Q., Gu, J., Xu, Z., Zhang, J., Tang, J., Wang, A., ... & Yuan, D. (2023). Comparative analysis of genome sequences of the two cultivated tetraploid cottons, Gossypium hirsutum (L.) and G. barbadense (L.). Industrial Crops and Products, 196, 116471.
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33. Sheng, K., Sun, Y., Liu, M., Cao, Y., Han, Y., Li, C., ... & Zhao, T. (2023). A reference-grade genome assembly for Gossypium bickii and insights into its genome evolution and formation of pigment glands and gossypol. Plant Communications, 4(1).
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34. Kim, H. J., Liu, Y., Thyssen, G. N., Naoumkina, M., & Frelichowski, J. (2023). Phenomics and transcriptomics analyses reveal deposition of suberin and lignin in the short fiber cell walls produced from a wild cotton species and two mutants. PloS one, 18(3), e0282799.
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35. McGarry, R. C., Kaur, H., Lin, Y. T., Puc, G. L., Eshed Williams, L., van der Knaap, E., & Ayre, B. G. (2023). Altered expression of SELF-PRUNING disrupts homeostasis and facilitates signal delivery to meristems. Plant Physiology, 192(2), 1517-1531.
36. Smith, E. R., Caulley, L. R., Storm, A. R., Hulse-Kemp, A. M., & Stoeckman, A. K. (2023). Gossypium hirsutum gene of unknown function Gohir. A03G007700. 1 encodes a potential VAN3-binding protein with a phosphoinositide-binding site. Micropublication Biology, 2023.
37. Qin, G., Zhao, N., Wang, W., Wang, M., Zhu, J., Yang, J., ... & Kong, J. (2023). Glyphosate-Induced Abscisic Acid Accumulation Causes Male Sterility in Sea Island Cotton. Plants, 12(5), 1058.
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38. Jin, S., Han, Z., Hu, Y., Si, Z., Dai, F., He, L., ... & Zhang, T. (2023). Structural variation (SV)-based pan-genome and GWAS reveal the impacts of SVs on the speciation and diversification of allotetraploid cottons. Molecular Plant, 16(4), 678-693.
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39. Tang, M., Gao, X., Meng, W., Lin, J., Zhao, G., Lai, Z., ... & Chen, Y. (2023). Transcription factors NF-YB involved in embryogenesis and hormones responses in Dimocarpus Longan Lour. Frontiers in Plant Science, 14.
40. Wei, F., Chen, P., Jian, H., Guo, X., Lv, X., Lian, B., ... & Wei, H. (2023). A systematic analysis of the phloem protein 2 (PP2) proteins in Gossypium hirsutum reveals that GhPP2-33 regulates salt tolerance. BMC genomics, 24(1), 1-12.
41. Li, T., Luo, K., Wang, C., Wu, L., Pan, J., Wang, M., ... & Zhang, Y. (2023). GhCKX14 responding to drought stress by modulating antioxi-dative enzyme activity in Gossypium hirsutum compared to CKX family genes. BMC Plant Biology, 23(1), 409.
42. Mei, J., Niu, Q., Xu, K., Huang, Y., Bai, S., Zhu, J., ... & Sun, Y. (2023). GhmiR858 Inhibits the Accumulation of Proanthocyanidins by Targeting GhTT2L in Cotton (Gossypium hirsutum). Journal of Agricultural and Food Chemistry.
43. Ma, W., Li, J., Liu, F., Zhang, T., & Guan, X. (2023). GhHSP24. 7 mediates mitochondrial protein acetylation to regulate stomatal conductance in response to abiotic stress in cotton. The Crop Journal, 11(4), 1128-1139.
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44. Sun, Y., Han, Y., Sheng, K., Yang, P., Cao, Y., Li, H., ... & Zhao, T. (2023). Single-cell transcriptomic analysis reveals the developmental trajectory and transcriptional regulatory networks of pigment glands in Gossypium bickii. Molecular Plant, 16(4), 694-708.
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45. Alariqi, M., Ramadan, M., Wang, Q., Yang, Z., Hui, X., Nie, X., ... & Jin, S. (2023). Cotton 4‐coumarate‐CoA ligase 3 enhanced plant resistance to Verticillium dahliae by promoting jasmonic acid signaling‐mediated vascular lignification and metabolic flux. The Plant Journal, 115(1), 190-204.
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46. Zhong, Y., Wang, Y., Li, P., Gong, W., Wang, X., Yan, H., ... & Yuan, Y. (2023). Genome-Wide Analysis and Functional Characterization of LACS Gene Family Associated with Lipid Synthesis in Cotton (Gossypium spp.). International Journal of Molecular Sciences, 24(10), 8530.
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47. Chai, Q., Wang, X., Gao, M., Zhao, X., Chen, Y., Zhang, C., ... & Zhao, J. (2023). A glutathione S‐transferase GhTT19 determines flower petal pigmentation via regulating anthocyanin accumulation in cotton. Plant Biotechnology Journal, 21(2), 433-448.
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48. Geng, C., Li, L., Han, S., Jia, M., & Jiang, J. (2023). Activation of Gossypium hirsutum ACS6 Facilitates Fiber Development by Improving Sucrose Metabolism and Transport. Plants, 12(20), 3530.
49. Fang, S., Shang, X., He, Q., Li, W., Song, X., Zhang, B., & Guo, W. (2023). A cell wall–localized β-1, 3-glucanase promotes fiber cell elongation and secondary cell wall deposition. Plant Physiology, kiad407.
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50. Wang, Q., Peng, W., Rong, J., Zhang, M., Jia, W., Lei, X., & Wang, Y. (2023). Molecular analysis of the 14-3-3 genes in Panax ginseng and their responses to heat stress. PeerJ, 11, e15331.
51. Li, W. B., Song, S. W., Zhong, M. M., Liu, L. G., Su, L., Han, L. B., ... & Wang, H. Y. (2023). VILLIN2 regulates cotton defense against Verticillium dahliae by modulating actin cytoskeleton remodeling. Plant Physiology, 192(1), 666-679.
52. Liu, F., Cai, S., Wu, P., Dai, L., Li, X., Ai, N., ... & Zhou, B. (2023). General Regulatory Factor7 regulates plant innate immune signaling to enhance Verticillium wilt resistance. Journal of Experimental Botany, erad385.
53. Zhu, Q. H. (2023). Deciphering cotton genomic variations for “genes to jeans”. Molecular Plant, 16(4), 654-656.
54. Pettit, N., Gowda, S. A., Shrestha, N., Harris, T., Bart, R., Bourland, F., ... & Kuraparthy, V. (2023). Development and validation of Kompetitive allele‐specific PCR (KASP) markers for bacterial blight resistant locus BB‐13 in Upland cotton (Gossypium hirsutum L.). Crop Science, 63(5), 2636-2649.
55. Yang, Z., Liu, Z., Ge, X., Lu, L., Qin, W., Qanmber, G., ... & Li, F. (2023). Brassinosteroids regulate cotton fiber elongation by modulating very-long-chain fatty acid biosynthesis. The Plant Cell, 35(6), 2114-2131.
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56. Han, J., Yu, G., Zhang, X., Dai, Y., Zhang, H., Zhang, B., & Wang, K. (2023). Histone Maps in Gossypium darwinii Reveal Epigenetic Regulation Drives Subgenome Divergence and Cotton Domestication. International Journal of Molecular Sciences, 24(13), 10607.
57. Wang, Y., Zhou, L., Guo, H., & Cheng, H. (2023). Genome-Wide Analysis of the Rad21/REC8 Gene Family in Cotton (Gossypium spp.). Genes, 14(5), 993.
58. Hao, X., Gao, S., Luo, T., Zhao, Z., Shao, W., Li, J., ... & Huang, Q. (2023). Ca2+-responsive phospholipid-binding BONZAI genes confer a novel role for cotton resistance to Verticillium wilt. Plant Molecular Biology, 1-13.
59. Chen, P., Li, L., Xia, S., Zhang, R., Zhang, R., Zeng, X. M., ... & Li, Z. G. (2023). Enhancement patterns of potassium on nitrogen transport and functional genes in cotton vary with nitrogen levels. Plant Science, 335, 111824.
60. Tingting, W., Jie, Z., Yuqing, H., Yanchao, X., Khan, A., Pu, L., ... & Zhongli, Z. (2023). GhGTG1 enhances cold stress tolerance by improving sensitivity to ABA in cotton and Arabidopsis. Environmental and Experimental Botany, 208, 105256.
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61. Shuya, M., Le, L., Huiyun, S., Yu, G., Yujun, L., & Qanmber, G. (2023). Genomic identification of cotton SAC genes branded ovule and stress-related key genes in Gossypium hirsutum. Frontiers in Plant Science, 14, 1123745.
62. Wang, J., Zhao, H., Qu, Y., Yang, P., & Huang, J. (2023). The binding pocket properties were fundamental to functional diversification of the GDSL-type esterases/lipases gene family in cotton. Frontiers in Plant Science, 13, 1099673.
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63. TIAN, X. M., Peng, H. A. N., Jing, W. A. N. G., SHAO, P. X., AN, Q. S., Nurimanguli, A. I. N. I., ... & NIE, X. H. (2023). Association mapping of lignin response to Verticillium wilt through an eight-way MAGIC population in Upland cotton. Journal of Integrative Agriculture, 22(5), 1324-1337.
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64. Wang, D., Hu, X., Ye, H., Wang, Y., Yang, Q., Liang, X., ... & Wang, K. (2023). Cell-specific clock-controlled gene expression program regulates rhythmic fiber cell growth in cotton. Genome Biology, 24(1), 1-28.
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65. Li, Y., Ran, L., Mo, T., Liu, N., Zeng, J., Liang, A., ... & Xiao, Y. (2023). Yellow Petal locus GaYP promotes flavonol biosynthesis and yellow coloration in petals of Asiatic cotton (Gossypium arboreum). Theoretical and Applied Genetics, 136(5), 98.
66. Li, L., Hu, Y., Wang, Y., Zhao, S., You, Y., Liu, R., ... & Feng, Z. (2023). Identification of novel candidate loci and genes for seed vigor-related traits in upland cotton (Gossypium hirsutum L.) via GWAS. Frontiers in Plant Science, 14.
67. Liu, J., Zhao, G., Geng, J., Geng, Z., Dou, H., Liu, X., ... & Wang, Y. (2023). Genome-wide analysis of mutations induced by carbon ion beam irradiation in cotton. Frontiers in Plant Science, 14, 1056662.
68. Wang, Y., Li, Y., He, S. P., Xu, S. W., Li, L., Zheng, Y., & Li, X. B. (2023). The transcription factor ERF108 interacts with AUXIN RESPONSE FACTORs to mediate cotton fiber secondary cell wall biosynthesis. The Plant Cell, koad214.
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69. Han, J., Umer, M. J., Yang, M., Hou, Y., Mehari, T. G., Zheng, J., ... & Cai, X. (2023). Genome-wide identification and functional analysis of ICE genes reveal that Gossypium thurberi “GthICE2” is responsible for cold and drought stress tolerance. Plant Physiology and Biochemistry, 199, 107708.
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70. Yang, Y., Wen, X., Wu, Z., Wang, K., & Zhu, Y. (2023). Large-scale long terminal repeat insertions produced a significant set of novel transcripts in cotton. Science China Life Sciences, 1-14.
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71. Kabir, N., Wang, X., Lu, L., Qanmber, G., Liu, L., Si, A., ... & Liu, Z. (2023). Functional characterization of TBL genes revealed the role of GhTBL7 and GhTBL58 in cotton fiber elongation. International Journal of Biological Macromolecules, 241, 124571.
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72. Ramaraj, T., Grover, C. E., Mendoza, A. C., Arick, M. A., Jareczek, J. J., Leach, A. G., ... & Udall, J. A. (2023). The Gossypium herbaceum L. Wagad genome as a resource for understanding cotton domestication. G3, 13(2), jkac308.
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73. Xu, M., Zuo, D., Wang, Q., Lv, L., Zhang, Y., Jiao, H., ... & Cheng, H. (2023). Identification and molecular evolution of the GLX genes in 21 plant species: a focus on the Gossypium hirsutum. BMC genomics, 24(1), 1-11.
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74. Wang, P., Zhao, Y., Wu, N., Azhar, M. T., Hou, Y., & Shang, H. (2023). GhERF. B4-15D: A Member of ERF Subfamily B4 Group Positively Regulates the Resistance against Verticillium dahliae in Upland Cotton. Biomolecules, 13(9), 1348.
75. Sheng, K., Sun, Y., Liu, M., Cao, Y., Han, Y., Li, C., ... & Zhao, T. (2023). A reference-grade genome assembly for Gossypium bickii and insights into its genome evolution and formation of pigment glands and gossypol. Plant Communications, 4(1).
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76. Zhou, X., Su, L., Tang, R., Dong, Y., Wang, F., Li, R., ... & Li, H. (2023). Genome-wide analysis of Hsp40 and Hsp70 gene family in four cotton species provides insights into their involvement in response to Verticillium dahliae and abiotic stress. Frontiers in Genetics, 14, 1120861.
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77. Lin, J. L., Fang, X., Li, J. X., Chen, Z. W., Wu, W. K., Guo, X. X., ... & Huang, J. Q. (2023). Dirigent gene editing of gossypol enantiomers for toxicity-depleted cotton seeds. Nature Plants, 9(4), 605-615.
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78. Wang, Z., Rehman, A., Jia, Y., Dai, P., He, S., Wang, X., ... & Du, X. (2023). Transcriptome and proteome profiling revealed the key genes and pathways involved in the fiber quality formation in brown cotton. Gene, 868, 147374.
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79. Shockey, J., Parchuri, P., Thyssen, G. N., & Bates, P. D. (2023). Assessing the biotechnological potential of cotton type-1 and type-2 diacylglycerol acyltransferases in transgenic systems. Plant Physiology and Biochemistry, 196, 940-951.
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80. Li, Z., Shi, Y., Xiao, X., Song, J., Li, P., Gong, J., ... & Yuan, Y. (2023). Genome-wide characterization of trichome birefringence-like genes provides insights into fiber yield improvement. Frontiers in Plant Science, 14, 1127760.
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81. Li, B., Zhou, G., Li, Y., Chen, X., Yang, H., Li, Y., ... & Li, L. (2023). Genome-wide identification of R-SNARE gene family in upland cotton and function analysis of GhVAMP72l response to drought stress. Frontiers in Plant Science, 14.
82. Liu, L. Y., Jia, M. Z., Wang, S. N., Han, S., & Jiang, J. (2023). Identification and characterization of cotton PHYTOCHROME-INTERACTING FACTORS in temperature-dependent flowering. Journal of Experimental Botany, erad119.
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83. Wang, J., Li, Z., Liang, Y., Zheng, J., Gong, Z., Zhou, G., ... & Li, X. (2023). Genome-wide identification and expression reveal the involvement of the FCS-like zinc finger (FLZ) gene family in Gossypium hirsutum at low temperature. PeerJ, 11, e14690.
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84. Feng, Z., Cheng, X., Wang, T., Han, Y., Chen, H., Zhang, X., ... & Liu, F. (2023). Investigation of GhFAT Genes Related to Seed Oil Content and Fatty Acid. Phyton, 92(5).
85. Atella, A. L., Grossi-de-Sá, M. F., & Alves-Ferreira, M. (2023). Cotton promoters for controlled gene expression. Electronic Journal of Biotechnology.
86. Xu, Y., Jiang, Y., Jiao, J., Zheng, H., Wu, Y., Li, Y., ... & Sun, Y. (2023). The cotton pectin methyl esterase gene GhPME21 functions in microspore development and fertility in Gossypium hirsutum L. Plant Molecular Biology, 112(1-2), 19-31.
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87. Li, X., Wang, J., Yu, Y., Li, G., Wang, J., Li, C., ... & Gong, L. (2023). Genomic rearrangements and evolutionary changes in 3D chromatin topologies in the cotton tribe (Gossypieae). BMC biology, 21(1), 56.
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88. Essenberg, M., McNally, K. L., Bayles, M. B., Pierce, M. L., Hall, J. A., Kuss, C. R., ... & Verhalen, L. M. (2023). Gene B5 in Cotton Confers High and Broad Resistance to Bacterial Blight and Conditions High Amounts of Sesquiterpenoid Phytoalexins. Phytopathology®, PHYTO-08.
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89. Li, Y., Chen, H., Wang, Y., Zhu, J., Zhang, X., Sun, J., ... & Zhao, Y. (2023). Function analysis of GhWRKY53 regulating cotton resistance to verticillium wilt by JA and SA signaling pathways. Frontiers in Plant Science, 14, 1203695.
90. Qanmber, G., You, Q., Yang, Z., Fan, L., Zhang, Z., Chai, M., ... & Yang, Z. (2023). Transcriptional and translational landscape fine-tune genome annotation and explores translation control in cotton. Journal of Advanced Research.
91. Wu, P., Lu, C., Wang, B., Zhang, F., Shi, L., Xu, Y., ... & Wu, J. (2023). Cotton RSG2 Mediates Plant Resistance against Verticillium dahliae by miR482b Regulation. Biology, 12(7), 898.
92. Zhang, Y., Zang, Y., Chen, J., Feng, S., Zhang, Z., Hu, Y., & Zhang, T. (2023). A truncated ETHYLENE INSENSITIVE3-like protein, GhLYI, regulates senescence in cotton. Plant Physiology, 193(2), 1177-1196.
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93. Ali, Z., Maryam, H., Saddique, M. A. B., & Ikram, R. M. (2023). Exploiting genetic diversity in enhancing phenotypic plasticity to develop climate-resilient cotton. Genetic Resources and Crop Evolution, 70(5), 1305-1320.
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94. Chen, C., Lu, L. L., Ma, S. Y., Zhao, Y. P., Wu, N., Li, W. J., ... & Hou, Y. X. (2023). Analysis of PAT1 subfamily members in the GRAS family of upland cotton and functional characterization of GhSCL13-2A in Verticillium dahliae resistance. Plant Cell Reports, 42(3), 487-504.
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95. Duan, Y., Shang, X., He, Q., Zhu, L., Li, W., Song, X., & Guo, W. (2023). LIPID TRANSFER PROTEIN4 regulates cotton ceramide content and activates fiber cell elongation. Plant Physiology, kiad431.
96. Xiao, X., Liu, R., Gong, J., Li, P., Li, Z., Gong, W., ... & Yuan, Y. (2023). Fine mapping and candidate gene analysis of qFL-A12-5: a fiber length-related QTL introgressed from Gossypium barbadense into Gossypium hirsutum. Theoretical and applied genetics, 136(3), 48.
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97. Dai, M., Yang, X., Chen, Q., & Bai, Z. (2023). Comprehensive genomic identification of cotton starch synthase genes reveals that GhSS9 regulates drought tolerance. Frontiers in Plant Science, 14, 1163041.
98. Song, Q., Gao, W., Du, C., Sun, W., Wang, J., & Zuo, K. (2023). GhXB38D represses cotton fibre elongation through ubiquitination of ethylene biosynthesis enzymes GhACS4 and GhACO1. Plant Biotechnology Journal.
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99. Cai, F., Zhang, Y., Hou, T., Zhang, M., Wang, J., & Chen, B. (2023). Phosphorus uptake mechanisms associated with phosphorus application levels in two cotton cultivars. Frontiers in Environmental Science.
100. Liu, X., Lei, Z., Yang, Y., Wang, Z., Ha, S., Lei, Z., & He, D. (2023). Genome-wide identification of GhRLCK-VII subfamily genes in Gossypium hirsutum and investigation of their functions in resistance to Verticillium wilt. BMC Plant Biology, 23(1), 1-19.
101. Wang, X., Chen, X., Lu, X., Malik, W. A., Yin, Z., Wang, D., ... & Ye, W. (2023). An ER-anchored enzyme of GhIRE1 negatively responding to salt tolerance in Gossypium hirsutum L. Environmental and Experimental Botany, 205, 105132.
102. Lv, Y. P., Zhao, G., Xie, Y. F., Owusu, A. G., Wu, Y., & Gao, J. S. (2023). Transcriptome and Metabolome Profiling Unveil Pigment Formation Variations in Brown Cotton Lines (Gossypium hirsutum L.). International Journal of Molecular Sciences, 24(6), 5249.
     Cited By
103. Ji, Y., Mou, M., Zhang, H., Wang, R., Wu, S., Jing, Y., ... & Chen, L. (2023). GhWRKY33 negatively regulates jasmonate-mediated plant defense to Verticillium dahliae. Plant Diversity, 45(3), 337-346.
104. Ye, F., Zhu, X., Wu, S., Du, Y., Pan, X., Wu, Y., ... & Fan, K. (2023). Conserved and divergent evolution of the bZIP transcription factor in five diploid Gossypium species. Planta, 257(1), 26.
     Cited By
105. Fan, Y., Lin, S., Lv, Y., Shang, H., Yuan, Y., Tang, Z., ... & Zeng, F. (2023). The plasmodesmata-associated β-1, 3-glucanase gene GhPdBG regulates fiber development in cotton. The Crop Journal.
106. Li, R., Zhang, Y. J., Ma, X. Y., Li, S. K., Klosterman, S. J., Chen, J. Y., ... & Dai, X. F. (2023). Genome Resource for the Verticillium Wilt Resistant Gossypium hirsutum Cultivar Zhongzhimian No. 2. Molecular Plant-Microbe Interactions, 36(1), 68-72.
     Cited By
107. Xu, F. C., Wang, M. J., Guo, Y. W., Song, J., Gao, W., & Long, L. (2023). The Na+/H+ antiporter GbSOS1 interacts with SIP5 and regulates salt tolerance in Gossypium barbadense. Plant Science, 330, 111658.
     Cited By
108. Dipta, B., Sood, S., Devi, R., Bhardwaj, V., Mangal, V., Thakur, A. K., ... & Singh, A. K. (2023). Digitalization of potato breeding program: Improving data collection and management. Heliyon.
109. Li, Y., Xi, W., Hao, J., Zhang, L., Wen, X., Wu, Z., & Zhu, Y. (2023). A Novel Tandem Zinc Finger Protein in Gossypium hirsutum, GhTZF2, Interacts with GhMORF8 to Regulate Cotton Fiber Cell Development. Agronomy, 13(2), 519.
110. Guo, Y., Qu, Y., Fan, R., Sun, F., Chen, Q., Shi, J., ... & Yan, G. (2023). Regulating drought tolerance in cotton by the expression of a specific allele of heat shock protein 70. Industrial Crops and Products, 202, 116820.
     Cited By
111. Liang, Q., Jin, Y., Zhu, Q. H., Shao, D., Wang, X., Ma, X., ... & Xue, F. (2023). A MYB transcription factor containing fragment introgressed from Gossypium bickii confers pink flower on Gossypium hirsutum L. Industrial Crops and Products, 192, 116121
     Cited By
112. Wang, N., Li, Y., Shen, C., Yang, Y., Wang, H., Yao, T., ... & Lin, Z. (2023). High‐resolution sequencing of nine elite upland cotton cultivars uncovers genic variations and breeding improvement targets. The Plant Journal, 113(1), 145-159.
     Cited By
113. Yousaf, S., Rehman, T., Tabassum, B., Aftab, F., & Qaisar, U. (2023). Genome scale analysis of 1-aminocyclopropane-1-carboxylate oxidase gene family in G. barbadense and its functions in cotton fiber development. Scientific Reports, 13(1), 4004.
     Cited By
114. Song, Q., Gao, W., Du, C., Wang, J., & Zuo, K. (2023). Cotton microtubule-associated protein GhMAP20L5 mediates fiber elongation through the interaction with the tubulin GhTUB13. Plant Science, 327, 111545.
     Cited By
115. Ehsan, A., Naqvi, R. Z., Azhar, M., Awan, M. J. A., Amin, I., Mansoor, S., & Asif, M. (2023). Genome-Wide Analysis of WRKY Gene Family and Negative Regulation of GhWRKY25 and GhWRKY33 Reveal Their Role in Whitefly and Drought Stress Tolerance in Cotton. Genes, 14(1), 171.
     Cited By
116. Singh, K., Arora, S., Khuman, A., Aggarwal, A., Kumar, V., & Chaudhary, B. (2023). Comparative phylogenomic analysis of 5’cis-regulatory elements (CREs) of miR160 gene family in diploid and allopolyploid cotton (Gossypium). Gene Reports, 30, 101721.
     Cited By
117. Wang, Y., Zhao, J., Chen, Q., Zheng, K., Deng, X., Gao, W., ... & Qu, Y. (2023). Quantitative trait locus mapping and identification of candidate genes for resistance to Verticillium wilt in four recombinant inbred line populations of Gossypium hirsutum. Plant Science, 327, 111562.
     Cited By
118. Naumann, T. A., Hao, G., Dowd, P. F., Johnson, E. T., Naldrett, M. J., & Price, N. P. (2023). Discovery of a secreted Verticillium dahliae protease that cleaves cotton CRR1 and induces plant cell death. Physiological and Molecular Plant Pathology, 123, 101941.
119. Wang, T., Shaban, M., Shi, J., Wang, W., Liu, S., Nie, X., ... & Zhu, L. (2023). Attenuation of ethylene signaling increases cotton resistance to a defoliating strain of Verticillium dahliae. The Crop Journal, 11(1), 89-98.
     Cited By
120. Sun, C., Yu, L., Zhang, S., Gu, Q., & Wang, M. (2023). Genome-wide characterization of the SHORT INTER-NODES/STYLISH and Shi-Related Sequence family in Gossypium hirsutum and functional identification of GhSRS21 under salt stress. Frontiers in Plant Science, 13, 1078083.
     Cited By
121. Adhikari, J., Chandnani, R., Vitrakoti, D., Khanal, S., Ployaram, W., & Paterson, A. H. (2023). Comparative transmission genetics of introgressed chromatin in reciprocal advanced backcross populations in Gossypium (cotton) polyploids. Heredity, 130(4), 209-222.
     Cited By
122. Yang, Y., You, C., Wang, N., Wu, M., Le, Y., Wang, M., ... & Lin, Z. (2023). Gossypium mustelinum genome and an introgression population enrich interspecific genetics and breeding in cotton. Theoretical and Applied Genetics, 136(6), 130.
123. Jia, M., Chen, S., Zhu, Q., Zheng, R., Li, Y., Sun, J., & Liu, F. (2023). Silencing of GhGRL28 in cotton increases sensitivity to salt stress. Plant Growth Regulation, 1-9.
124. Aslam, M. Q., Hussain, A., Akram, A., Hussain, S., Naqvi, R. Z., Amin, I., ... & Mansoor, S. (2023). Cotton Mi-1.2-like Gene: A potential source of whitefly resistance. Gene, 851, 146983.
     Cited By
125. Zhao, J. R., Feng, Y. M., Zheng, Y. X., Liu, D. S., Hu, G. Y., Li, Y. Q., ... & Long, L. (2023). Genomic study of PIFs in cotton and functional analysis of GhPIF4 in promoting cotton flowering. Plant Growth Regulation, 1-13.
126. Chang, X., Guo, C., Pan, Z., Wu, Y., Shen, C., Chao, L., ... & Nie, X. (2023). QTL Mapping for Fiber Quality Based on Introgression Lines Population from G. hirsutum× G. tomentosum. Agriculture, 13(3), 579.
127. CHEN, T., LING, X., YU, Y., & ZHANG, B. (2023). A nonsynonymous mutation in an acetolactate synthase gene (Gh_D10G1253) is required for tolerance to imidazolinone herbicides in cotton. Journal of Cotton Research, 6(1), 4.
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128. Wang, Y., Guo, X., Xu, Y., Sun, R., Cai, X., Zhou, Z., ... & Liu, F. (2023). Genome-wide association study for boll weight in Gossypium hirsutum races. Functional & Integrative Genomics, 23(4), 331.