论文题目 |
作者 |
期刊 |
年,卷(期):起止码 |
Environmental impacts of cotton and opportunities for improvement |
Zhang ZG, Huang J*, Yao Y, Peters G, Macdonald B, Rosa ADL, Wang ZB*, Scherer L |
Nature Reviews Earth and Environment |
2023,4:703-715 |
Single-cell RNA sequencing reveals a hierarchical transcriptional regulatory network of terpenoid biosynthesis in cotton secretory glandular cells |
Lin JL, Chen LX, Wu WK, Guo XX, Yu CH, Xu M, Nie GB, Dun JL, Li Y, Xu BF, Wang LJ, Chen XY, Gao W*, Huang JQ* |
Molecular Plant |
2023,16(12):1990-2003 |
Synergistic optimization of crops by combining early maturation with other agronomic traits |
Zhao H, Huang XZ, Yang ZE, Li FG*, Ge XY* |
Trends in Plant Science |
2023,28:1178-1191 |
Introducing single-cell stereo-sequencing technology to transform the plant transcriptome landscape |
Bawa G†, Liu ZX†, Yu XL†, Tran LSP*, Sun XW* |
Trends in Plant Science |
2023,30:1360-1385 |
Development of an eco-friendly pink cotton germplasm by engineering betalain biosynthesis pathway |
Ge XY†, Wang P†, Wang Y†, Wei X, Chen YL, Li FG* |
Plant Biotechnology Journal |
2023,21(4):674-676 |
GhPRE1A promotes cotton fibre elongation by activating the DNA-binding bHLH factor GhPAS1 |
Wu HH†, Fan LQ†, Guo MZ, Liu L, Liu LS, Hou LY, Zheng L, Qanmber G, Lu LL, Zhang J, Li FG*, Yang ZR* |
Plant Biotechnology Journal |
2023,21(5):896-898 |
Single-cell transcriptome atlas identified novel regulators for pigment gland morphogenesis in cotton |
Long L, Xu FC, Wang CH, Zhao XT, Yuan M, Song CP*, Gao W* |
Plant Biotechnology Journal |
2023,21(6):1100-1102 |
Genome-wide association analysis reveals a novel pathway mediated by a dual-TIR domain protein for pathogen resistance in cotton |
Zhang YH†, Zhang YN†, Ge XY, Yuan Y, Jin YY, Yang Y, Zhao LH, Han X, Hu W, Yang L, Gao CX, Wei X, Li FG*, Yang ZE* |
Genome Biology |
2023,24:111 |
Cotton pedigree genome reveals restriction of cultivar-driven strategy in cotton breeding |
Liu S†, Zuo DY†, Cheng HL†, He M†, Wang QL, Lv LM, Zhang YP, Ashraf J, Liu J*, Song GL* |
Genome Biology |
2023,24:282 |
Quantitative evaluation of variation and driving factors of the regional water footprint for cotton production in China |
Li QQ, Huang WB, Wang J, Zhang ZG, Li YB*, Han YC, Feng L, Li XF, Yang BF, Wang GP, Lei YP, Xiong SW, Xin MH, Li CD*, Wang ZB* |
Sustainable Production and Consumption |
2023,35:684-696 |
Brassinosteroids regulate cotton fiber elongation by modulating very-long-chain fatty acid biosynthesis |
Yang ZR†, Liu Z†, Ge XY†, Lu LL, Qin WQ, Qanmber G, Liu L, Wang Z, Li FG* |
Plant Cell |
2023,35(6):2114-2131 |
Recent progression and future perspectives in cotton genomic breeding |
Yang ZE, Gao CX, Zhang YH, Yan QD, Hu W, Yang L, Wang Z*, Li FG* |
Journal of Integrative Plant Biology |
2023,65(2):548-569 |
Efficient genotype-independent cotton genetic transformation and genome editing |
Ge XY†, Xu JT†, Yang ZE†, Yang XF†, Wang Y, Chen YL, Wang P, Li FG* |
Journal of Integrative Plant Biology |
2023,65(4):907-917 |
GhAP1-D3 positively regulates flowering time and early maturity with no yield and fiber quality penalties in upland cotton |
Wang CX†, Liu JJ†, Xie XY, Wang J, Ma Q, Chen PY, Yang DL, Ma XF*, Hao FS*, Su JJ* |
Journal of Integrative Plant Biology |
2023,65(4):985-1002 |
The nitrogen footprint and reactive nitrogen reduction potential of cotton production in China |
Huang WB†, Wu FQ†, Zhang ZG†, Meng YM, Wang J, Li QQ, Han YC, Feng L, Li XF, Wang GP*, Lei YP, Fan ZY, Yang BF, Xiong SW, Xin MH, Li YB*, Wang ZB* |
Journal of Cleaner Production |
2023,402:136808 |
Growing cover crop mixtures are more sustainable than single cover crop incontinuous cotton cropping: Comprehensive assessment from 3-year field experiment |
Zhang ZG, Wang J, Huang WB, Han YC, Wang GP*, Feng L, Li XF, Xiong SW, Xin MH, Li YB*, Wang ZB* |
Journal of Cleaner Production |
2023,420:138350 |
Genome-wide artificial introgressions of Gossypium barbadense into G. hirsutum reveal superior loci for simultaneous improvement of cotton fiber quality and yield traits |
Li SQ†, Kong LL†, Xiao XH†, Li PT†, Liu AY, Li JW, Gong JW, Gong WK, Ge Q, Shang HH, Pan JT, Chen H, Peng Y, Zhang YM, Lu QW*, Shi YZ*, Yuan YL* |
Journal of Advanced Research |
2023,53:1-16 |
Developing an efficient CRISPR-dCas9-TV-derived transcriptional activation system to create three novel cotton germplasm materials |
Yu L†, Li ZS†, Ding X, Alariqi M,Zhang CJ, Zhu XQ, Fan SL*, Zhu LF*, Zhang XL*, Jin SX* |
Plant Communications |
2023,4(4):100600 |
Risk assessment of predatory lady beetle Propylea japonica's multi-generational exposure to three non-insecticidal agrochemicals |
Chang GF†, Xue H†, Ji JC†, Wang L, Zhu XZ, Zhang KX, Li DY, Gao XK, Niu L, Gao MX, Luo JY, Cui JJ* |
Science of The Total Environment |
2023,886:163931 |
Recent advances and future perspectives in early-maturing cotton research |
Zhao H†, Chen YL†, Liu J, Wang Z, Li FG*, Ge XY* |
New Phytologist |
2023,237(4):1100-1114 |
GhRCD1 regulates cotton somatic embryogenesis by modulating the GhMYC3-GhMYB44-GhLBD18 transcriptional cascade |
Yuan JC†, Liu XX†, Zhao H†, Wang Y†, Wei X†, Wang P, Zhan JJ, Liu LS, Li FG*, Ge XY* |
New Phytologist |
2023,240(1):207-223 |
The dual role of GoPGF reveals that the pigment glands are synthetic sites of gossypol in aerial parts of cotton |
Zhang ZN†, Long L†, Zhao XT, Shang SZ, Xu FC, Zhao JR, Hu GY, Mi LY, Song CP*, Gao W* |
New Phytologist |
2023,240(1):314-328 |
Sustainable conversion of cottonseed hulls to valuable proanthocyanidins through ultrasound-assisted deep eutectic solvent extraction |
Cui J†, Fang D†, Tian XQ, Peng J, Chen D*, Xu SJ*, Ma L* |
Ultrasonics Sonochemistry |
2023,100:106605 |
Improvement of amphipathic properties with molecular structure unfolding andactivation of cottonseed protein as ultrastable and safe emulsifier by deamidation |
Frempong KEB, He HG, Kuang M*, Peng J, Xue M, Wei YX*, Zhou J* |
International Journal of Biological Macromolecules |
2023,247(30):125802 |
GhTLP1, a thaumatin-like protein 1, improves Verticillium wilt resistance in cotton via JA, ABA and MAPK signaling pathway-plant pathways |
Zhou H, Xie YJ, Jiang Y, Nadeem H, Wang Y, Yang N, Zhu HQ*, Tang CM* |
International Journal of Biological Macromolecules |
2023,253(7):127388 |
Characteristic of GEX1 genes reveals the essential roles for reproduction in cotton |
Li TY†, Zhu SH†, Li Y, Yao JB, Wang CL, Fang ST, Pan JW, Chen W*, Zhang YS* |
International Journal of Biological Macromolecules |
2023,253(8):127645 |
A brassinosteroid transcriptional regulatory network participates in regulating fiber elongation in cotton |
Liu L, Chen GQ, Li SD, Gu Y, Lu LL, Qanmber G, Mendu V, Liu Z*, Li FG*, Yang ZR* |
Plant Physiology |
2023,191(3):1985-2000 |
Strigolactones positively regulate Verticillium wilt resistance in cotton via crosstalk with other hormones |
Yi FF, Song AS, Cheng K, Liu JL, Wang CX, Shao LL, Wu S, Wang P, Zhu JX, Liang ZL, Chang Y, Chu ZY, Cai CW, Zhang XB, Wang P, Chen AM, Xu J, Burritt DJ, Estrella LH, Tran LSP*, Li WQ*, Cai YF* |
Plant Physiology |
2023,192(2):945-966 |
Genetic regulation of nitrogen use efficiency in Gossypium spp |
Ninkuu V†, Liu ZX†, Sun XW* |
Plant Cell and Environment |
2023,46(6):1749-1773 |
N6-methyladenosine mRNA modification regulates transcripts stability associated with cotton fiber elongation |
Xing K†, Liu Z†, Liu L, Zhang J, Qanmber G, Wang Y, Liu LS, Gu Y, Zhang CS, Li SJ, Zhang Y*, Yang ZR* |
Plant Journal |
2023,115(4):967-985 |
Dietary exposure to Cry1Fa protein can lower microbiome biodiversity and induce shift in symbiotic microbial communities in wolf spider Pardosa astrigera |
Liu WJ†, Nasir M†, Zhu XZ, Iqbal MS, Wang L, Zhang KX, Li DY, Ji JC, Luo JY*, Cui JJ*, Gao XK* |
Entomologia Generalis |
2023,43(2):471-479 |
Parasitism by Lysiphlebia japonica alters the microbiome of Aphis gossypii offspring |
Gao XK, Xue H, Zhu XZ, Wang L, Zhang KX, Li DY, Ji JC, Liang JG*, Luo JY*, Cui JJ* |
Entomologia Generalis |
2023,43(5):991-999 |
Insulin receptor substrate-1 (IRS1) regulates oogenesis and 1 vitellogenesis in Propylea japonica by mediating FOXO Transcription Factor expression, independent of JH and 20E signaling pathways |
Huangfu NB, Zhu XZ, Wang L, Zhang KX, Li DY, Chen LL, Gao XK, Niu L, Gao MX, Ji JC*, Luo JY*, Cui JJ* |
Journal of Agricultural and Food Chemistry |
2023,71(1):300-310 |
GhGAI interacts with GhAP1 and regulates flowering pathway in upland cotton |
Feng Z, Zhang Q, Li Y, Hao PB, Wei HL, Fu XK, Lu JH, Ma L*, Yu SX*, Wang HT* |
Industrial Crops and Products |
2023,192:116110 |
Starch granules of the sugar-pathway were eliminated under the stress of PEG-drought compared with Soil-drought |
Dai MH†, Zhang YX†, Lu XK†, Wang DL, Zhang Y, Zhou N, Wu ZL, Liu LY, Rui C, Wang XG, Cui RF, Chen XG, Wang JJ, Wang S, Guo LX, Zhao LJ, Chen C, Chen QJ*, Ye WW* |
Industrial Crops and Products |
2023,193:116158 |
Abrin inactivating mitochondrial ribosome induced anther abortion in cotton CMS line LD6A by damaging mitochondrial membrane structure |
Zheng J†, Khan A†, Zhou BJ, Zhou Q, Ullah N, Kong XJ, Umer MJ, Liu YD, Liu F*, Zhou RY* |
Industrial Crops and Products |
2023,194:116273 |
Applications of Chaetomium globosum CEF-082 improve soil health and mitigate the continuous cropping obstacles for Gossypium hirsutum |
Ma XJ†, Zhang YL†, Wei F, Zhao LH, Zhou JL, Qi GR, Ma Z, Zhu HQ, Feng HJ*, Feng ZL* |
Industrial Crops and Products |
2023,197:116586 |
Integrated analysis of mRNA and miRNA transcriptomes reveals the mechanism of regulatory interspecific fiber heterosis |
Li TY†, Luo K†, Wang CL, Cao YF, Zhang H, Zhang YS*, Rong JK* |
Industrial Crops and Products |
2023,197:116622 |
Effects of irrigation regime on soil hydrothermal microenvironment, cotton biomass, and yield under non-film drip irrigation system in cotton fields in southern Xinjiang, China |
Li ZP†, Wan SM†, Chen GD, Han YC, Lei YP, Ma YZ, Xiong SW, Mao TY, Feng L, Wang GP, Li XF, Wang ZB, Zhi ZY, Jiao YH, Xin MH, Li YB*, Yang BF* |
Industrial Crops and Products |
2023,198:116738 |
Long-term assessments of cotton fiber quality in response to plant population density: Reconciling fiber quality and its temporal stability |
Zhang SJ, Han YC, Wang GP, Feng L, Lei YP, Wang ZB, Xiong SW, Yang BF, Du WL, Zhi XY, Xin MH, Jiao YH, Li XF*, Li YB* |
Industrial Crops and Products |
2023,198:116741 |
Comprehensive identification of polygalacturonases in cotton: Genomic analysis, potential regulatory mechanisms and expression patterns in anthers |
Li ZS†, Cao XC†, Wang HY, Liu YM, Liu WQ, Zhang HY, Kuang M*, Peng J* |
Industrial Crops and Products |
2023,200:116874 |
Regulating drought tolerance in cotton by the expression of a specific allele of heat shock protein 70 |
Guo YP, Qu YY, Fan R, Sun FL, Chen Q, Shi JB, Zheng K, Ni ZY, Zhang YB, Chen QJ*, Wang N*, Yan GT* |
Industrial Crops and Products |
2023,202:116820 |
Adaptation of cotton production to climate change by sowing date optimization and precision resource management |
Wu FQ†, Guo SM†, Huang WB, Han YC, Wang ZB, Feng L, Wang GP, Li XF, Lei YP, Yang BF, Xiong SW, Zhi XY, Chen JL, Xin MH, Wang YR, Li YB* |
Industrial Crops and Products |
2023,203:117167 |
Co-expression of multi-gene in cotton promotes the aggregation of multi-resistance and yield traits |
Wang P†, Zhao H†, Liu XX†, Li GL, Zhang XS, Zhang XY*, Xing YD* |
Industrial Crops and Products |
2023,204:117311 |
Genome-wide association study identifies GhF3’H affects the spiraeoside biosynthesis in waste cotton (Gossypium hirsutum L.) flowers |
Zhang XM†, Dong RD†, Xu YX, Du XM*, Ma L* |
Industrial Crops and Products |
2023,204:117330 |
Systematic analysis of the NDR1/HIN1-like (NHL) family in Gossypium hirsutum reveals a role of GhNHL69 in responding to cold stress |
Guo XH†, Wei F†, Jian HL, Lian BY, Dang XY, Yang MQ, Fu XK, Ma L, Lu JH, Wang HT, Wei HL*, Yu SX* |
Industrial Crops and Products |
2023,206:117659 |
Orychophragmus violaceus/cotton relay intercropping with reduced N application maintains or improves crop productivity and soil carbon and nitrogen fractions |
Zhang ZG, Wang J, Xiong SW, Huang WB, Li XF, Xin MH, Han YC, Wang GP, Feng L, Lei YP, Yang BF, Li YB*, Wang ZB* |
Field Crops Research |
2023,291:108807 |
Climate warming accelerates cotton growth while cultivar shifts extend the growth period |
Han WR†, Liu SL†, Lei YP, Zhang YJ*, Han YC,Wang GP, Feng L, Li XF, Li YB*, Wang ZB* |
Field Crops Research |
2023,293:108850 |
Changes in within-boll yield components explain cotton yield and quality variation across planting dates under a double cropping system of cotton-wheat |
Guo SM, Liu TJ, Han YC, Wang GP, Du WL, Wu FQ, Li YB*, Feng L* |
Field Crops Research |
2023,293:108853 |
Genome-wide association study identifies GhSAL1 affects cold tolerance at the seedling emergence stage in upland cotton (Gossypium hirsutum L.) |
Shen Q†, Zhang SP†, Ge CW, Liu SD, Chen J, Liu RH, Ma HJ, Song MZ*, Pang CY* |
Theoretical and Applied Genetics |
2023,136(2):27 |
Fine mapping and candidate gene analysis of qFL-A12-5: a fiber length-related QTL introgressed from Gossypium barbadense into Gossypium hirsutum |
Xiao XH†, Liu RX†, Gong JW†, Li PT, Li ZY, Gong WK, Liu AY, Ge Q, Deng XY, Li SQ, Chen QJ, Zhang H, Peng RH, Peng Y, Shang HH, Pan JT, Shi YZ*, Lu QW*, Yuan YL* |
Theoretical and Applied Genetics |
2023,136(3):48 |
Optimizing plant type structure to adjust the temporal and spatial distribution of water consumption and promote the growth and yield formation of cotton |
Wang YR, Chen JL, Wu FQ, Yang BF, Han YC, Feng L, Wang ZB, Li XF, Lei YP, Xiong SW, Wang GP, Zhi XY*, Li YB* |
European Journal of Agronomy |
2023,147:126850 |
Directly linking plant N, P and K nutrition to biomass production in cotton-based intercropping systems |
Qiu YR†, Li X†, Tang YR, Xiong SW, Han YC, Wang ZB, Feng L, Wang GP, Yang BF, Lei YP, Du WL, Zhi XY, Xin MH, Jiao YH, Zhang SJ*, Li YB*, Li XF* |
European Journal of Agronomy |
2023,151:126960 |
The glycoside hydrolase 28 member VdEPG1 is a virulence factor of Verticillium dahliae and interacts with the jasmonic acid pathway-related gene GhOPR9 |
Liu SC†, Liu RB†, Lv JY†, Feng ZL, Wei F, Zhao LH, Zhang YL, Zhu HQ*, Feng HJ* |
Molecular Plant Pathology |
2023,24(10):1238-1255 |
Transgenic Bt cotton expressing Cry1Ac/1Ab does not have detrimental effects on the predator Arma chinensis through its prey Helicoverpa armigera |
Ma YM , Zhang M, Luo, JY, Ji JC ,Zhu XZ, Wang L, Zhang KX, Li DY, Niu L*, Cui JJ* |
Journal of Pest Science |
2023,96(1):317-326 |
Evaluation of Hamiltonella on Aphis gossypii fitness based on life table parameters and RNA sequencing |
Niu RC, Zhu XZ, Wang L, Zhang KX, Li DY, Ji JC, Niu L, Gao XK*, Luo JY*, Cui JJ* |
Pest Management Science |
2023,79(1):306-314 |
Sexually dimorphic morphology, feeding behavior and gene expression profiles in cotton aphid Aphis gossypii |
Ji JC, Shi QY, Zhang KX, Chen LL, Zhu XZ, Li DY, Gao XK, Niu L, Wang L*, Luo JY*, Cui JJ* |
Pest Management Science |
2023,79(12):5152-5161 |
CottonMD: a multi-omics database for cotton biological study |
Yang ZQ†, Wang J†, Huang YM†, Wang SB, Wei LL, Liu DX, Weng YL, Xiang JH, Zhu Q, Yang ZE, Nie XH, Yu Y, Yang ZR*, Yang QY* |
Nucleic Acids Research |
2023,51:1446-1456 |
Chromosome level genome assembly of oriental armyworm Mythimna separata |
Xu C, Ji JC*, Zhu XZ, Huangfu NB, Xue H, Wang L, Zhang KX, Li DY, Niu L, Chen R, Gao XK*, Luo JY*, Cui JJ* |
Scientific Data |
2023,10(1):597 |
Integrated microbiology and metabolomics analysis reveal responses of cotton rhizosphere microbiome and metabolite spectrum to conventional seed coating agents |
Ma Z†, Feng HJ†, Yang CZ, Ma XJ, Li P, Feng ZL, Zhang YL, Zhao LH, Zhou JL, Xu XM, Zhu HQ, Wei F* |
Environmental Pollution |
2023,333:122058 |
Tracking antibiotic resistance genes in microplastic-contaminated soil |
Wu CC, Song XP, Wang D, Ma YJ, Ren XL, Hu HY, Shan YP, Ma XY, Cui JJ*, Ma Y* |
Chemosphere |
2023,312:137235 |
Assessment of the risk of imidaclothiz to the dominant aphid parasitoid Binodoxys communis (Hymenoptera: Braconidae) |
Du LG†, Gao XK†*, Zhao LK, Zhu XZ, Wang L, Zhang KX, Li DY, Ji JC, Luo JY*, Cui JJ* |
Environmental Research |
2023,238:117165 |
Glyphosate decreases survival, increases fecundity, and alters the microbiome of the natural predator Harmonia axyridis (ladybird beetle) |
Gao XK, Hu FM, Cui HF, Zhu XZ, Wang L, Zhang KX, Li DY, Ji JC*, Luo JY*, Cui JJ* |
Environmental Research |
2023,238:117174 |
Preparation of Cu-CS@IN@MIL-100 (Fe) for controlled indoxacarb release and reduced non-target organism risks |
Shan YP, Ma YJ ,Wu CC, Ren XL, Song XP, Wang D , Hu HY*, Ma XY*, Ma Y* |
Journal of Environmental Chemical Engineering |
2023,11:109967 |
Phosphorus availability affects the photosynthesis and antioxidant system of contrasting low-P-tolerant cotton genotypes |
Mirezhatijiang K†, Asif I†, Noor M†, Li XT, Li LL, Wang XR, Gui HP, Qi Q, Ruan SJ, Guo RS, Zhang XL*, Song MZ*, Dong Q* |
Antioxidants |
2023,12(2):466 |
Identification and characterization of cotton PHYTOCHROME-INTERACTING FACTORS in temperaturedependent flowering |
Liu LY†, Jia MZ†, Wang SN, Han S, Jiang J* |
Journal of Experimental Botany |
2023,74(12):3765-3780 |
Domestication has reduced leaf water use efficiency associated with the anatomy of abaxial stomata in cotton |
Lei ZY†, He Y†, Li XF, He ZQ, Zhang YJ, Zhang WF, Liu F*, Zhang YL* |
Journal of Experimental Botany |
2023,74(3):878-888 |
Exposure to flupyradifurone affect health of biocontrol parasitoid Binodoxys communis (Hymenoptera: Braconidae) via disrupting detoxification metabolism and lipid synthesis |
Gao XK†, Zhao LK†, Zhu XZ, Wang L, Zhang KX, Li DY, Ji JC, Niu L, Luo JY*, Cui JJ* |
Ecotoxicology and Environmental Safety |
2023,255:114785 |
Response of the Pardosa astrigera bacterial community to Cry1B protein |
Liu WJ†, Nasir M†, Yan MJ, Zhu XZ, Iqbal MS, Wang L, Zhang KX, Li DY, Ji JC, Gao XK*, Luo JY*, Cui JJ* |
Ecotoxicology and Environmental Safety |
2023,256:114855 |
Sublethal toxicity of sulfoxaflor to parasitoid Binodoxys communis Gahan |
Gao XK†, Zhang KX†, Zhao LK†, Zhu XZ, Wang L, Li DY, Ji JC, Niu L, Luo JY*, Cui JJ* |
Ecotoxicology and Environmental Safety |
2023,262:115169 |
Effects of long-term microplastic pollution on soil heavy metals and metal resistance genes: Distribution patterns and synergistic effects |
Wu CC, Song XP, Wang D, Ma YJ, Ren XL, Hu HY, Shan YP, Ma XY, Cui JJ*, Ma Y* |
Ecotoxicology and Environmental Safety |
2023,262:115180 |
GhCYS2 governs the tolerance against cadmium stress by regulating cell viability and photosynthesis in cotton |
Meng Y†, Cui YP†, Peng FJ†, Guo LX†, Cui RF†, Xu N, Huang H, Han MG, Fan YP, Zhang MH, Sun YP, Wang LD, Yang ZN, Liu MY, Chen WH, Ni KS, Wang DL, Zhao LJ, Lu XK, Chen XG, Wang JJ, Wang S, Ye WW* |
Ecotoxicology and Environmental Safety |
2023,263:115386 |
Enhancing stimulation of cyaniding, GhLDOX3 activates reactive oxygen species to regulate tolerance of alkalinity negatively in cotton |
Jiang TT†, He YX†, Wu Z†, Cui YP†, Wang XP†, Huang H, Fan YP, Han MG, Wang JJ, Wang S, Chen XG, Lu XK, Wang DL, Guo LX, Zhao LJ, Hao FS*, Ye WW* |
Ecotoxicology and Environmental Safety |
2023,267:115655 |
Heat-responsive microRNAs participate in regulating the pollen fertility stability of CMS-D2 restorer line under high-temperature stress |
Zhang M†, Zhang XX†, Wang RJ†, Zang R, Guo LP, Qi TX, Tang HN, Chen LL, Wang HL, Qiao XQ, Wu JY*, Xing CZ* |
Biological Research |
2023,56(1):58 |
Genome-wide analysis elucidates the roles of GhHMA genes in different abiotic stresses and fiber development in upland cotton |
Wu CC†, Xiao SP†, Zuo DY, Cheng HL, Zhang YP, Wang QL, Lv LM, Song GL* |
Plant Physiology and Biochemistry |
2023,194:281-301 |
Integrative physiological, transcriptome and metabolome analysis reveals the involvement of carbon and flavonoid biosynthesis in low phosphorus tolerance in cotton |
Asif I, Dong Q, Wang XR, Gui HP, Zhang HH, Zhang XL*, Song MZ* |
Plant Physiology and Biochemistry |
2023,196:302-317 |
Genome-wide identification and functional analysis of ICE genes reveal that Gossypium thurberi “GthICE2” is responsible for cold and drought stress tolerance |
Han JP†, Umer MJ†, Yang MY, Hou YQ, Mehari TG, Zheng J, Wang H, Liu JJ, Dong WH, Xu YC, Wang YH, Liu F*, Zhou ZL*, Cai XY* |
Plant Physiology and Biochemistry |
2023,199:107708 |
Genome-wide analysis of the serine carboxypeptidase-like protein family reveals Ga09G1039 is involved in fiber elongation in cotton |
Fu GY†, Chen BJ†, Pei XX, Wang XY, Wang X, Nazir MF, Wang JJ, Zhang XM, Xing AS, Pan ZE, Lin ZX, Peng Z, He SP*, Du XM* |
Plant Physiology and Biochemistry |
2023,201:107759 |
GhSINA1, a SEVEN in ABSENTIA ubiquitin ligase, negatively regulates fiber development in upland cotton |
Yang XQ†, Li W†, Ren ZY, Zhao JJ, Li XY, Wang XX, Pei XY, Liu YG, He KL, Zhang F, Ma XF*, Yang DG* |
Plant Physiology and Biochemistry |
2023,201:107853 |
Profile of cotton flavonoids: Their composition and important roles in development and adaptation to adverse environments |
Long L†, Zhao XT†, Feng YM†, Fan ZH, Zhao JR, Wu JF, Xu FC, Yuan M, Gao W* |
Plant Physiology and Biochemistry |
2023,201:107866 |
The cotton miR171a-SCL6 module mediates plant resistance through regulating GhPR1 expression |
Hu G†, Ge XY†, Wang P, Chen AM, Li FG*, Wu JH* |
Plant Physiology and Biochemistry |
2023,202:107995 |
Melatonin receptor, GhCAND2-D5 motivated responding to NaCl signaling in cotton |
Zhang YX†, Dai MH†, Wu Z†, Wang S†, Fan YP, Ni KS, Lu XK, Liu XY, Liu MY, Chen WH, Chen XG, Wang DL, Wang JJ, Guo LX, Zhao LJ, Wang XP*, Ye WW* |
Plant Physiology and Biochemistry |
2023,203:108001 |
The effect of shift in physiological and anatomical traits on light use efficiency under cotton domestication |
Lei ZY, Han JM, Chen YR, Zhang WF, Cai XY, Liu F*, Zhang YL* |
Physiologia Plantarum |
2023,175(2):e13884 |
GhSTP18, a member of sugar transport proteins family, negatively regulates salt stress in cotton |
Qiao KK*, Lv JY, Chen LL, Wang YW, Ma LN, Wang J, Wang Z, Wang L, Ma QF*, Fan SL* |
Physiologia Plantarum |
2023,175(4):e13982 |
Analysis of the histidine kinase gene family and the role of GhHK8 in response to drought tolerance in cotton |
Zhao LJ†, Wang YB†, Cui RF†, Cui YP†, Lu XK, Chen XG, Wang JJ, Wang DL, Yin ZJ, Wang S, Peng FJ, Guo LX, Chen C, Ye WW* |
Physiologia Plantarum |
2023,175(5):e14022 |
Transcriptomic analysis reveals the beneficial effects of salt priming on enhancing defense responses in upland cotton under successive salt stress |
Nazir MF, Chen BJ, Umer MJ, Sarfraz Z, Peng Z, He SP, Iqbal MS, Wang JJ, Li HG, Pan ZE, Hu DW, Song MZ, Du XM* |
Physiologia Plantarum |
2023,175(6):e14074 |
Dose effects of restorer gene modulate pollen fertility in cotton CMS-D2 restorer lines via auxin signaling and flavonoid biosynthesis |
Zang R†, Shahzad K†, Zhang XX, Guo LP, Qi TX, Tang HN, Wang RJ, Wang HL, Qiao XQ, Zhang M*, Wu JY*, Xing CZ* |
Plant Cell Reports |
2023,42:1705-1719 |
Origin, evolution, and diversification of the wall-associated kinase gene family in plants |
Zhang ZQ†, Huo WQ†, Wang XX, Ren ZY, Zhao JJ, Liu YG, He KL, Zhang F, Li W*, Jin SX*, Yang DG* |
Plant Cell Reports |
2023,42:1891-1906 |
GhGTG1 enhances cold stress tolerance by improving sensitivity to ABA in cotton and Arabidopsis |
Wei TT†, Zheng J†, Hou YQ†, Xu YC, Khan A, Lu P, Wang YH, Wang KB, Liu F*, Cai XY*, Zhou ZL* |
Environmental and Experimental Botany |
2023,208:105256 |
Freezing transcriptome analysis showed that GhZAT10 regulates freezing tolerance through a partially CBF-dependent pathway in upland cotton (Gossypium hirsutum L.) |
Li PZ†, Wang MX†, Zhou YQ, Wu QD, Shen YH, Cui ZQ, Liu RD, Liu RH, Shen Q, Chen J, Zhang SP, Liu SD, Ma HJ, Pang CY*, Ge CW* |
Environmental and Experimental Botany |
2023,208:105263 |
Molecular mechanism that underlies cotton response to salt and drought stress revealed by complementary transcriptomic and iTRAQ analyses |
Yuan ZZ, Zhang CH, Zhu WD, Yan GT, Chen XG, Qiu P, Boymurodov R, Ye WW*, Bobokhonova ZQ*, Yin ZJ* |
Environmental and Experimental Botany |
2023,209:105288 |
Surviving the enemies: Regulatory mechanisms of stomatal function in response to drought and salt stress |
Bawa G†, Yu XL†, Liu ZX†, Zhou YP, Sun XW* |
Environmental and Experimental Botany |
2023,209:105291 |
Identification of salt stress-tolerant candidate genes in the BC2F2 population at the seedling stages of G. hirsutum and G. darwinii using NGS-based bulked segregant analysis |
Shehzad M†, Ditta A†, Cai XY, Rahman SU, Xu YC, Wang KB, Zhou ZL*, Liu F* |
Frontiers in Plant Science |
2023,14:1125805 |
Genome-wide characterization of trichome birefringence-like genes provides insights into fiber yield improvement |
Li ZY†, Shi YZ†, Xiao XH, Song JK, Li PT, Gong JW, Zhang HB, Gong WK, Liu AY, Peng RH, Shang HH, Ge Q, Li JW, Pan JT, Chen QJ*, Lu QW*, Yuan YL* |
Frontiers in Plant Science |
2023,14:1127760 |
Improved cotton yield: Can we achieve this goal by regulating the coordination of source and sink? |
Qin AZ†, Aluko OO†, Liu ZX†, Yang JC, Hu MK, Guan LP, Sun XW* |
Frontiers in Plant Science |
2023,14:1136636 |
Comparative transcriptional and co-expression network analysis of two upland cotton accessions with extreme phenotypic differences reveals molecular mechanisms of fiber development |
He JS, Xu ZY, Azhar MT, Zhang Z, Li PT, Gong JW, Jiang X, Fan SM, Ge Q*, Yuan YL*, Shang HH* |
Frontiers in Plant Science |
2023,14:1189490 |
Low soil available phosphorus level reduces cotton fiber length via osmoregulation |
Sun M†, Zheng CS†, Feng WN, Shao JJ, Pang CY, Li PC*, Dong HL* |
Frontiers in Plant Science |
2023,14:1254103 |
Genome-wide analysis and functional characterization of LACS gene family associated with lipid synthesis in cotton (Gossypium spp.) |
Zhong YK†, Wang YB†, Li PT, Gong WK, Wang XY, Yan HL, Ge Q, Liu AY, Shi YZ, Shang HH, Zhang YM, Gong JW*, Yuan YL* |
International Journal of Molecular Sciences |
2023,24(10):8530 |
Roles of S-adenosylmethionine and its derivatives in salt tolerance of cotton |
Yang L†, Wang XX†, Zhao FR†, Zhang XL, Li W, Huang JS, Pei XY, Ren X, Liu YG, He KL, Zhang F, Ma XF*, Yang DG* |
International Journal of Molecular Sciences |
2023,24(11):9517 |
Genome-wide association study of lint percentage in Gossypium hirsutum L. races |
Wang YY†, Guo XL†, Cai XY, Xu YC, Sun RR, Umer MJ, Wang KB, Qin TF, Hou YQ, Wang YH, Zhang P, Wang ZH, Liu F, Wang QL*, Zhou ZL* |
International Journal of Molecular Sciences |
2023,24(12):10404 |
Comparative transcriptome profiling of CMS-D2 and CMS-D8 systems characterizes fertility restoration genes network in upland cotton |
Song XT, Zhang M, Shahzad K, Zhang XX, Guo LP, Qi TX, Tang HN, Wang HL, Qiao XQ, Feng JJ, Han Y, Xing CZ*, Wu JY* |
International Journal of Molecular Sciences |
2023,24(13):10759 |
Comprehensive evaluation and transcriptome analysis reveal the salt tolerance mechanism in semi-wild cotton (Gossypium purpurascens) |
Peng Z†, Rehman A†, Li XW, Jiang XR, Tian CY, Wang XY, Li HG, Wang ZZ, He SP*, Du XM* |
International Journal of Molecular Sciences |
2023,24(16):12853 |
Reactive oxygen species: a crosslink between plant and human eukaryotic cell systems |
Guo W†, Xing YD†, Luo XM, Li FG, Ren MZ*, Liang YM* |
International Journal of Molecular Sciences |
2023,24(17):13052 |
Transcriptome analysis reveals the defense mechanism of cotton against Verticillium dahliae induced by hypovirulent fungus Gibellulopsis nigrescens CEF08111 |
Feng ZL†, Wei F†, Feng HJ, Zhang YL, Zhao LH, Zhou JL, Xie JT, Jiang DH*, Zhu HQ* |
International Journal of Molecular Sciences |
2023,24(2):1480 |
Hub genes in stable QTLs orchestrate the accumulation of cottonseed oil in upland cotton via catalyzing key steps of lipid-related pathways |
Alam B†, Liu RX†, Gong JW, Li JW, Yan HL, Ge Q, Xiao XH, Pan JT, Shang HH, Shi YZ, Yuan YL*, Gong WK* |
International Journal of Molecular Sciences |
2023,24(23):16595 |
MYC2: a master switch for plant physiological processes and specialized metabolite synthesis |
Luo L†, Wang Y†, Qiu L, Han XP, Zhu YQ, Liu LL, Man MW, Li FG, Ren MZ*, Xing YD* |
International Journal of Molecular Sciences |
2023,24(4):3511 |
Comparisons between plant and animal stem cells regarding regeneration potential and application |
Liu LL†, Qiu L†, Zhu YQ, Luo L, Han XP, Man MW, Li FG, Ren MZ*, Xing YD* |
International Journal of Molecular Sciences |
2023,24(5):4392 |
The CCCH-type zinc-finger protein GhC3H20 enhances salt stress tolerance in Arabidopsis thaliana and cotton through ABA signal transduction pathway |
Zhang Q, Zhang JJ, Wei F, Fu XK, Wei HL, Lu JH, Ma L*, Wang HT* |
International Journal of Molecular Sciences |
2023,24(5):5057 |
GhERF.B4-15D: a member of ERF subfamily B4 group positively regulates the resistance against Verticillium dahliae in upland cotton |
Wang PP†, Zhao YP†*, Wu N, Azhar MT, Hou YX, Shang HH* |
Biomolecules |
2023,13(9):1348 |
Genome wide identification of GDSL gene family explores a novel GhirGDSL26 gene enhancing drought stress tolerance in cotton |
Liu JJ†, Liu JN†, Wang H†, Khan A†, Xu YC, Hou YQ, Wang YH, Zhou ZL, Zheng J*, Liu F*, Cai XY* |
BMC Plant Biology |
2023,23:14 |
Phosphorus and carbohydrate metabolism contributes to low phosphorus tolerance in cotton |
Asif I†, Dong Q†, Wang XR, Gui HP, Zhang HH, Zhang XL, Song MZ* |
BMC Plant Biology |
2023,23:97 |
Systematic analysis and expression of Gossypium 2ODD superfamily highlight the roles of GhLDOXs responding to alkali and other abiotic stress in cotton |
Jiang TT†, Cui AH†, Cui YP†, Cui RF†, Han MG, Zhang YX, Fan YP, Huang H, Feng XX, Lei YQ, Liu XY, Ni KS, Zhang H, Xu N, Wang J, Sun LQ, Rui C, Wang JJ, Wang S, Chen XG, Lu XK, Wang DL, Guo LX, Zhao LJ, Hao FS*, Ye WW* |
BMC Plant Biology |
2023,23:124 |
Differential responses of contrasting low phosphorus tolerant cotton genotypes under low phosphorus and drought stress |
Asif I†, Gui HP†, Dong Q, Wang XR, Zhang HH, Zhang XL*, Song MZ* |
BMC Plant Biology |
2023,23:168 |
Lint percentage and boll weight QTLs in three excellent upland cotton (Gossypium hirsutum): ZR014121, CCRI60, and EZ60 |
Niu H, Kuang M, Huang LY, Shang HH*, Yuan YL*, Ge Q* |
BMC Plant Biology |
2023,23:179 |
Combined transcriptomic and metabolomic analyses elucidate key salt-responsive biomarkers to regulate salt tolerance in cotton |
Han MG†, Cui RF†, Wang DL†, Huang H, Rui C, Waqar AM, Wang J, Zhang H, Xu N, Liu XY, Lei YQ, Jiang TT, Sun LQ, Ni KS, Fan YP,Zhang YX, Wang JJ, Chen XG, Lu XK, Yin ZJ, Wang S, Guo LX, Zhao LJ, Chen C, Ye WW* |
BMC Plant Biology |
2023,23:245 |
GhPYL9-5D and GhPYR1-3 A positively regulate Arabidopsis and cotton responses to ABA, drought, high salinity and osmotic stress |
Wang YB†, Zhang GF†, Zhou HM†, Yin SS, Li YX, Ma CX, Chen PY, Sun LR, Hao FS* |
BMC Plant Biology |
2023,23:310 |
Changes in terpene biosynthesis and submergence tolerance in cotton |
Sun LQ†, Wang JJ†, Cui YP†, Cui RF†, Kang RQ†, Zhang YX, Wang S, Zhao LJ, Wang DL, Lu XK, Fan YP, Han MG, Chen C, Chen XG, Guo LX, Ye WW* |
BMC Plant Biology |
2023,23:330 |
GhCKX14 responding to drought stress by modulating antioxi-dative enzyme activity in Gossypium hirsutum compared to CKX family genes |
Li TY†, Luo K†, Wang CL, Wu LX, Pan JW, Wang MY, Liu JW, Li Y, Chen W, Zhu SH*, Zhang YS* |
BMC Plant Biology |
2023,23:409 |
GhIMP10D, an inositol monophosphates family gene, enhances ascorbic acid and antioxidant enzyme activities to confer alkaline tolerance in Gossypium hirsutum L. |
Fan YP†, Peng FJ†, Cui RF†, Wang S†, Cui YP†, Lu XK, Huang H, Ni KS, Liu XY, Jiang TT, Feng XX, Liu MY, Lei YQ, Chen WH, Meng Y, Han MG, Wang DL, Yin ZJ, Chen XG, Wang JJ, Li YJ, Guo LX, Zhao LJ, Ye WW* |
BMC Plant Biology |
2023,23:447 |
Dynamic characteristics and functional analysis provide new insights into the role of GauERF105 for resistance against Verticillium dahliae in cotton |
Wang YQ†, Umer MJ†, Cai XY†, Yang MY, Hou YQ, Xu YC, Batool R, Mehari TG, Zheng J, Wang YH, Li ZK, Zhou ZL*, Liu F* |
BMC Plant Biology |
2023,23:501 |
Comprehensive identification and functional characterization of GhpPLA gene family in reproductive organ development |
Wang MY†, Tian DY†, Li TY, Pan JW, Wang CL, Wu LX, Luo K, Mei ZY, Liu JW, Chen W, Yao JB, Li Yan, Wang FX*, Zhu SH*, Zhang YS* |
BMC Plant Biology |
2023,23:599 |
Dynamic changes in species richness and community diversity of symbiotic bacteria in five reproductive morphs of cotton aphid Aphis gossypii Glover (Hemiptera: Aphididae) |
Chen RF, Luo JY, Zhu XZ, Wang L, Zhang KX, Li DY, Gao XK, Niu L, Huangfu NB, Ma XY, Ji JC*, Cui JJ* |
Frontiers in Microbiology |
2023,13:1086728 |
Soil bacterial community response to continuous cropping of cotton |
Ma Z†, Li P†, Yang CZ, Feng ZL, Feng HJ, Zhang YL, Zhao LH, Zhou JL, Zhu HQ*, Wei F* |
Frontiers in Microbiology |
2023,14:1125564 |
Variation of Helicoverpa armigera symbionts across developmental stages and geographic locations |
Zhao CC, Wang L, Zhang KC, Zhu XZ, Li DY, Ji JC*, Luo JY*, Cui JJ* |
Frontiers in Microbiology |
2023,14:1251627 |
GhMYB102 promotes drought resistance by regulating drought-responsive genes and ABA biosynthesis in cotton (Gossypium hirsutum L.) |
Liu RD†, Shen YH†, Wang MX, Liu RH, Cui ZQ, Li PZ, Wu QD, Shen Q, Chen J, Zhang SP, Liu SD, Ma HJ, Pang CY*, Ge CW* |
Plant Science |
2023,329:111608 |
The Na+/H+ antiporter GbSOS1 interacts with SIP5 and regulates salt tolerance in Gossypium barbadense |
Xu FC†, Wang MJ†, Guo YW, Song J, Gao W, Long L* |
Plant Science |
2023,330:111658 |
Physiological and transcriptional analyses reveal formation of memory under recurring drought stresses in seedlings of cotton (Gossypium hirsutum) |
Tian ZL†, Li K†, Sun YR†, Chen BJ†, Pan ZE, Wang ZZ, Pang BY, He SP*, Miao YC*, Du XM* |
Plant Science |
2023,338:111920 |
Epigenetic insight into floral transition and seed development in plants |
Mahmood T, He SP, Abdullah M, Sajjad M, Jia YH, Ahmar S, Fu GY, Chen BJ, Du XM* |
Plant Science |
2023,339:111926 |
Buchnera breaks the specialization of the cotton-specialized aphid (Aphis gossypii) by providing nutrition through zucchini |
Xu WL†, Liu WJ†, Li JM†, Zhu XZ, Wang L, Li DY, Zhang KX, Ji JC, Gao XK*, Luo JY*, Cui JJ* |
Frontiers in Nutrition |
2023,10:1128272 |
Sinapate esters mediate UV-B-induced stomatal closure by regulating nitric oxide, hydrogen peroxide, and malate accumulation in Arabidopsis thaliana |
Li WQ†, Sun YR†, Li K†, Tian HT, Jia JT, Zhang HY, Wang YP, Wang H, Bi BD, Guo JG, Tran LSP, Miao YC* |
Plant and Cell Physiology |
2023,63(12):1890-1899 |
Suppressor of MAX2 1 (SMAX1) and SMAX1-LIKE2 (SMXL2) negatively regulate drought resistance in Arabidopsis thaliana |
Feng ZH†, Liang XH†, Tian HT†, Watanabe Y, Nguyen KH, Tran CD, Abdelrahman M, Xu K, Mostofa MG, Van Ha C, Mochida K, Tian CJ, Tanaka M, Seki M, Liang ZW, Miao YC*, Tran LSP*, Li WQ* |
Plant and Cell Physiology |
2023,63(12):1900-1913 |
In-syringe cotton fiber solid-phase extraction coupled with stable-isotope-dilution liquid chromatography-tandem mass spectrometry for the determination of zearalenone |
Xu XL†, Xu SJ†, Wang B, Liu YW, Li WX, Fan M, Xu X, Ma L*, Chen D* |
Microchemical Journal |
2023,198:109264 |
Activation of Gossypium hirsutum ACS6 Facilitates Fiber Development by Improving Sucrose Metabolism and Transport |
Geng C, Li LL, Han S, Jia MZ, Jiang J* |
Plants |
2023,12(20):3530 |
QTL Verification and Candidate Gene Screening of Fiber Quality and Lint Percentage in the Secondary Segregating Population of Gossypium hirsutum |
Liu RX†, Zhu MH†, Shi YQ, Li JW, Gong JW, Xiao XH, Chen QJ*, Yuan YL*, Gong WK* |
Plants |
2023,12(21):3737 |
GhDof1.7, a dof transcription factor, plays positive regulatory role under salinity stress in upland cotton |
Li Y, Tian MM, Feng Z, Zhang JJ, Lu JH, Fu XK, Ma L, Wei HL*, Wang HT* |
Plants |
2023,12(21):3740 |
Silencing of GhORP_A02 enhances drought tolerance in Gossypium hirsutum |
Tajo SM, Pan ZE, Jia YH, He SP, Chen BJ, Sadau1 SB, Yusuf KM, Ajadi AA, Nazir MF, Auta U, Geng XL*, Du XM* |
BMC Genomics |
2023,24:7 |
A systematic analysis of the phloem protein 2 (PP2) proteins in Gossypium hirsutum reveals that GhPP2-33 regulates salt tolerance |
Wei F†, Chen PY†, Jian HL, Guo XH, Lv XY, Lian BY, Sun MX, An L, Dang XY, Yang MQ, Wu HM, Zhang N, Wu AM, Wang HT, Ma L, Fu XK, Lu JH, Yu SX*, Wei HL* |
BMC Genomics |
2023,24:467 |
Identification and molecular evolution of the GLX genes in 21 plant species: a focus on the Gossypium hirsutum |
Xu ML, Zuo DY, Wang QL, Lv LM, Zhang YP, Jiao HX, Zhang X, Yang Y, Song GL*, Cheng HL* |
BMC Genomics |
2023,24:474 |
Quantitative trait loci and candidate genes for yield-related traits of upland cotton revealed by genome-wide association analysis under drought conditions |
Sun FL, Yang YL*, Wang PL, Ma J, Du XM* |
BMC Genomics |
2023,24:531 |
Genotypic variation in carbon and nitrogen metabolism in the cotton subtending leaves and seed cotton yield under various nitrogen levels |
Asif I†, Niu J†, Dong Q, Mirezhatijiang K, Wang XR, Gui HP, Zhang HH, Zhang XL*, Song MZ* |
Journal of the Science of Food and Agriculture |
2023,103(5):2602-2617 |
Comparison of the effect of extraction methods on waste cotton (Gossypium hirsutum L.) flowers: metabolic profile, bioactive components, antioxidant, and α-amylase inhibition |
Ma L*, Dong RD, Peng J, Tian XQ, Fang D, Xu SJ |
Journal of the Science of Food and Agriculture |
2023,103(13):6463-6472 |
VdGAL4 modulates microsclerotium formation, conidial morphology, and germination to promote virulence in Verticillium dahliae |
Wen Y, Zhou JL, Feng HJ, Sun WQ, Zhang YL, Zhao LH, Cheng Y, Feng ZL*, Zhu HQ*, Wei F* |
Microbiology Spectrum |
2023,11:03515-22 |
Genome-wide characterization of the SAMS gene family in cotton unveils the putative role of GhSAMS2 in enhancing abiotic stress tolerance |
Kilwake JW†, Umer MJ†, Wei YY, Mehari TG, Magwanga RO, Xu YC, Hou YQ, Wang YH, Shiraku ML, Kirungu JN, Cai XY, Zhou ZL, Peng RH*, Liu F* |
Agronomy |
2023,13:612 |
Updates and prospects: morphological, physiological, and molecular regulation in crop response to waterlogging stress |
Yang L, Li N, Liu Y, Miao PF, Liu J*, Wang Z* |
Agronomy |
2023,13:2599 |
Application of a high-density single nucleotide polymorphism genetic map in mapping quantitative trait loci of early-maturing traits in upland cotton |
Mao GZ, Wei HL, Chen PY, Xing F*, Wang HT* |
Agronomy |
2023,13:2716 |
Parasitization of Aphis gossypii glover by Binodoxys communis Gahan causes shifts in the ovarian bacterial microbiota |
Li JM†, An Z†, Luo JY, Zhu XZ, Wang L, Zhang KX, Li DY, Ji JC, Niu L, Gao XK*, Cui JJ* |
Insects |
2023,14(4):314 |
Knockdown of CYP9A9 increases the susceptibility to lufenuron, methoxyfenozide and a mixture of both in Spodoptera exigua |
Zhang ZX†, Wang D†, Shan YP, Chen JX, Hu HY, Song XP, Ma XY*, Ren XL*, Ma Y* |
Insect Molecular Biology |
2023,32(3):263-276 |
A flavonol synthase (FLS) gene, GhFLS1, was screened out increasing salt resistance in cotton |
Han MG†, Cui RF†, Cui YP†, Wang JJ†, Wang S†, Jiang TT, Huang H, Lei YQ, Liu XY, Rui C, Fan YP, Zhang YX, Ni KS, Sun LQ, Chen XG, Lu XK, Wang DL, Yin ZJ, Chen C, Guo LX, Zhao LJ, Chen QJ*, Ye WW* |
Environmental Sciences Europe |
2023,35:37 |
Antioxidant system was triggered to alleviate salinity stress by cytokinin oxidase/dehydrogenase gene GhCKX6b‑Dt in cotton |
Liu MY†, Cui YP†, Peng FJ†, Wang S†, Cui RF†, Liu XY, Zhang YX, Huang H, Fan YP, Jiang TT, Feng XX, Lei YQ, Ni KS, Han MG, Chen WH, Meng Y, Wang JJ, Chen XG, Lu XK, Wang DL, Guo LX, Zhao LJ, Jiang J*, Ye WW* |
Environmental Sciences Europe |
2023,35:82 |
Comparative metabolomics analysis reveals the variation of metabolites associated with axillary bud development in upland cotton |
Shi JB, Liu XH, Wang N, Xu QH, Zhang YB, Yan GT* |
Journal of Plant Growth Regulation |
2023,42:3071-30833 |
Low phosphorus tolerance in cotton genotypes is regulated by root morphology and physiology |
Asif I†, Dong Q†, Wang XR, Gui HP, Zhang HH, Zhang XL*, Song MZ* |
Journal of Plant Growth Regulation |
2023,42:3677-3695 |
Changes in phosphorus fractions in response to uniconazole application in cotton functional leaves |
Xiong SW, Huang T, Li T, Li XF, Wang ZB, Hu KF*, Li YB* |
Journal of Plant Growth Regulation |
2023,42(5):3128-3136 |
Spatiotemporal changes and driving factors of reference evapotranspiration and crop evapotranspirationfor cotton production in China from 1960 to 2019 |
Su YX†, Wang J†, Li JH, Wang LZ, Wang KF, Li A, Gao L*, Wang ZB* |
Frontiers in Environmental Science |
2023,11:1251789 |
Overexpression of cotton Trihelix transcription factor GhGT-3b_A04 enhances resistance to Verticillium dahliae and affects plant growth in Arabidopsis thaliana |
Mao HM, Zhang WQ, Lv JY, Yang JX, Yang SX, Jia B, Song JK, Wu M, Pei WF, Ma JJ, Zhang BB, Zhang JF*, Wang L*, Yu JW* |
Journal of Plant Physiology |
2023,283:153947 |
Unraveling genomic regions and candidate genes for multiple disease resistance in upland cotton using meta-QTL analysis |
Huo WQ†, Zhang ZQ†, Ren ZY, Zhao JJ, Song CX, Wang XX, Pei XY, Liu YG, He KL, Zhang F, Li XY, Li W*, Yang DG*, Ma XF* |
Heliyon |
2023,9(8):e18731 |
Impact of sulfoxafor exposure on bacterial community and developmental performance of the predatory ladybeetle Propylea japonica |
Li W, Li XQ, Wang WR, Zhang SC, Cui JJ*, Peng Y*, Zhao Y* |
Microbial Ecology |
2023,86(2):1226-1239 |
Relay intercropping cover crop combined with reduced nitrogen application improves subsequent cotton agronomic traits while maintaining yield and quality |
Guo XY†, Zhang ZG†, Sun GL, Xiong SW, Han YC, Wang GP, Li CD, Li YB, Zhang YJ*, Wang ZB* |
Crop Science |
2023,63(4):2475-2490 |
Characterization and gene expression patterns analysis implies BSK family genes respond to salinity stress in cotton |
Lei YQ†, Cui YP†, Cui RF†, Chen XG†, Wang JJ, Lu XK, Wang DL, Wang S, Guo LX, Zhang YX, Rui C, Fan YP, Han MG, Zhao LJ, Zhang H, Liu XY, Xu N, Wang J, Huang H, Feng XX, Xi YL, Ni KS, Zhang MH, Jiang TT, Ye WW* |
Frontiers in Genetics |
2023,14:1169104 |
Transcriptome and proteome profiling revealed the key genes and pathways involved in the fiber quality formation in brown cotton |
Wang ZZ†, Rehman A†, Jia YH, Dai PH, He SP, Wang XY, Li HG, Wang LR, Qayyum A, Peng Z*, Du XM* |
Gene |
2023,868:147374 |
Development and identification of molecular markers of GhHSP70-26 related to heat tolerance in cotton |
Guo YP, Chen Q, Qu YY, Deng XJ, Zheng K, Wang N, Shi JB, Zhang YB, Chen QJ*, Yan GT* |
Gene |
2023,874:147486 |
Improving the completeness of chromosome-level assembly by recalling sequences from lost contigs |
Liu JY, Liu F*, Pan WH* |
Genes |
2023,14(10):1926 |
Response of the Propylea japonica microbiota to treatment with Cry1B protein |
Diao FC, Li YR, Gao XK, Luo JY, Zhu XZ, Wang L, Zhang KX, Li DY, Ji JC, Cui JJ* |
Genes |
2023,14(11):2008 |
Competition for light interception in different plant canopy characteristics of diverse cotton cultivars |
Sultana F†, Dev W†, Xin MH, Han YC, Feng L, Lei YP, Yang BF, Wang GP, Li XF, Wang ZB, Xing FF, Xiong SW, Li YB* |
Genes |
2023,14(2):364 |
Genome-wide identification and characterization of the PPO gene family in cotton (Gossypium) and their expression variations responding to Verticillium wilt infection |
Yang SH, Ge Q, Wan SM, Sun ZH, Chen Y, Li YF, Liu QK, Gong JW, Xiao XH, Lu QW, Shi YZ, Peng RH, Shang HH, Chen GD*, Li PT* |
Genes |
2023,14(2):477 |
Dentification and characterization of phytocyanin family genes in cotton genomes |
Tufail MB, Yasir M, Zuo DY, Cheng HL, Ali M, Hafeez A, Soomro M, Song GL* |
Genes |
2023,14(3):611 |
Genomic dynamics and functional insights under salt stress in Gossypium hirsutum L. |
Anwar Z†, Ijaz A†, Ditta A, Wang BH†, Liu F, Khan SMUD, Haidar S, Hassan HM, Khan MKR† |
Genes |
2023,14(5):1103 |
Comparative transcriptome analysis revealed key genes regulating gossypol synthesis in tetraploid cultivated cotton |
Kong LL†, Li SQ†, Qian YY†, Cheng HL, Zhang YP, Zuo DY, Lv LM, Wang QL, Li JL*, Song GL* |
Genes |
2023,14(6):1144 |
Identification of MYB gene family and functional analysis of GhMYB4 in cotton (Gossypium spp.) |
Dai YL, Liu S, Zuo DY, Wang QL, Lv LM, Zhang YP, Cheng HL*, Yu JZ*, Song GL* |
Molecular Genetics and Genomics |
2023,298:755-766 |
Split-nitrogen application increases nitrogen-use efficiency and yield of cotton |
Feng WN†, Li PC†, Zheng CS, Sun M, Shao JJ, Li XF*, Dong HL* |
Nutrient Cycling in Agroecosystems |
2023,125:393-407 |
Genotypic variation in cotton genotypes for low phosphorus tolerance and efficiency under different growth conditions |
Asif I†, Dong Q†, Wang XR, Gui HP, Zhang HH, Zhang XL, Song MZ* |
Gesunde Pflanzen |
2023,75:1975-1993 |
Functional characterization of the GhNRT2.1e gene reveals its significant role in improving nitrogen use efficiency in Gossypium hirsutum |
Zhang XM, Feng JJ, Zhao RL, Cheng HL, Ashraf J, Wang QL, Lv LM, Zhang YP, Song GL*, Zuo DY* |
PeerJ |
2023,11:e15152 |
Genetic diversity and population structure analysis of upland cotton (Gossypium hirsutum L.) germplasm in China based on SSR markers |
Shi JB, Zhang YB, Wang N, Xu QH, Huo FC, Liu XH*, Yan GT* |
Genetic Resources and Crop Evolution |
2023,70:2671-2682 |
A platform to aid select the optimal tool to design guide RNAs |
Yang QQ, Ma L* |
Frontiers of Agricultural Science and Engineering |
2023,10(2):296-305 |
Development of mitochondrial simple sequence repeat markers to simultaneously distinguish cytoplasmic male sterile sources in cotton |
Li YQ, Zhang M, Shahzad K, Han Y, Zhang XX, Guo LP, Qi TX, Tang HN, Wang HL, Qiao XQ, Feng JJ, Lin ZX*, Wu JY*, Xing CZ* |
Functional and Integrative Genomics |
2023,23:25 |
Genome-wide association study for boll weight in Gossypium hirsutum races |
Wang YY†, Guo XL†, Xu YC, Sun RR, Cai XY, Zhou ZL, Qin TF, Tao Y, Li BH, Hou YQ, Wang QL*, Liu F* |
Functional and Integrative Genomics |
2023,23:331 |
Insights to Gossypium defense response against Verticillium dahliae: the cotton cancer |
Umer MJ, Zheng J, Yang MY, Batool R, Abro AA, Hou YQ, Xu YC, Gebremeskel H, Wang YH, Zhou ZL, Cai XY, Liu F*, Zhang BH* |
Functional and Integrative Genomics |
2023,23(2):142 |
Genome-wide identification and expression analysis of terpene synthases in Gossypium species in response to gossypol biosynthesis |
Mehari TG†, Fang H†, Feng WX†, Zhang YY, Umer MJ, Han JL, Ditta A, Khan MKR, Liu F*, Wang K*, Wang BH* |
Functional and Integrative Genomics |
2023,23(2):197 |
Dynamics and diversity of symbiotic bacteria in Apolygus lucorum at different developmental stages |
Xue H, Zhu XZ, Wang L, Zhang KX, Li DY, Ji JC, Niu L, Gao XK*, Luo JY*, Cui JJ* |
Journal of Cotton Research |
2023,6:5 |
The morphological diversity of pollen in the genus Gossypium |
Cai XY*, Hou YQ, Muhammad UJ, Wang H, Xu YC, Zheng J, Wang YH, Liu F, Zhou ZL, Hua JP*, Wang KB* |
Journal of Cotton Research |
2023,6:6 |
Validating field regeneration capacity for selected accessions of Gossypium hirsutum using callus induction and regeneration capacity |
Tajo SM, Pan ZE, He SP, Jia YH, Mahmood T, Nazir MF, Hu DW, Wang LR, Sadau SB, Ibrahim S, Auta U, Geng XL*, Du XM* |
Journal of Cotton Research |
2023,6:9 |
A bZIP transcription factor GhVIP1 increased drought tolerance in upland cotton |
Zhao P, Xu YW, Chen W, Sang XH, Zhao YL*, Wang HM* |
Journal of Cotton Research |
2023,6:11 |
Genome-wide identification and analysis of the CNGC gene family in upland cotton under multiple stress conditions |
Kirungu JN†, Magwanga RO†, Shiraku ML, Okuto E, Cai XY, Xu YC, Hou YQ, Agong SG, Wang KB, Wang YH, Zhou ZL*, Liu F* |
Journal of Cotton Research |
2023,6:17 |
Mepiquat chloride priming confers the ability of cotton seed to tolerate salt by promoting ABA-operated GABA signaling control of the ascorbate-glutathione cycle |
Qi Q†, Wang N†, Ruan SJ, Muhammad N, Zhang HH, Shi JB, Dong Q, Xu QH, Song MZ*, Yan GT*, Zhang XL*, Wang XR* |
Journal of Cotton Research |
2023,6:24 |
Progress and perspective on cotton breeding in Pakistan |
Shahzad K†, Mubeen I†, Zhang M, Zhang XX, Wu JY*, Xing CZ* |
Journal of Cotton Research |
2023,5:29 |
Loose and tower-type canopy structure can improve cotton yield in the Yellow River basin of China by increasing light interception |
An J†, Zhang ZG†, Li XF, Xing FF, Lei YP, Yang BF, Wang ZB, Han YC, Chen HX, Wang GP, Feng L, Du WL, Li YB* |
Archives of Agronomy and Soil Science |
2023,69(6):920-933 |
Seasonal changes in germinability, dormancy and viability of field bindweed (Convolvulus arvensis) seeds as affected by storage and duration |
Ma XY, Wu HW, Ren XL, Hu HY, Wang L*, Ma Y* |
Advances in Weed Science |
2023,41:e020220082 |
Oil candidate genes in seeds of cotton (Gossypium hirsutum L.) and functional validation of GhPXN1 |
Gao CX†, Han X†, Xu ZZ†, Yang ZE, Yan QD, Zhang YH, Song JK, Yu H, Liu RJ, Yang L, Hu W, Yang JX, Wu M, Liu JS, Xie ZM*, Yu JW*, Zhang ZB* |
Biotechnology for Biofuels and Bioproducts |
2023,16:169 |
Morphological and physio-biochemical responses under heat stress in cotton: Overview |
Aamir AA, Anwar M, Umer MJ, Zhang MJ, Liu F*, Jimenez BR*, Salama EAA, Ahmed MAA |
Biotechnology Reports |
2023,40:e00813 |
The consequences of plant architecture and spatial distribution of light interception on cotton growth and yield |
Sultana F, Dev W, Zhang ZG, Wang YR, Chen JL, Wang J, Khan H, Tajo SM, Li YB* |
International Journal of Agriculture and Biosciences |
2023,12(3):153-158 |
The interplay of carbon and nitrogen distribution: Prospects for improved crop yields |
Aluko OO, Liu ZX, Sun XW* |
Modern Agriculture |
2023,1(1):57-75 |
An integrated strategy coordinating endogenous and exogenous approaches to alleviate crop lodging |
Yang L, Liu J, Li N, Pei YF, Peng J*, Wang Z* |
Plant Stress |
2023,9:100197 |
FLS2-RBOHD module regulates changes in the metabolome of Arabidopsis in response to abiotic stress |
Yu XL†, Liu ZX†, Qin AZ†, Zhou YP, Zhao ZH, Yang JC, Hu MK, Liu H, Liu YM, Sun SS, Zhang YX, Jan M, Bawa G, Sun XW* |
Plant-Environment Interactions |
2023,4(1):36-54 |