Artykuły w czasopismach: „Cotton fiber initiation”

1

Seagull, Robert W. "Cytoskeletal Stability Affects Cotton Fiber Initiation". International Journal of Plant Sciences 159, nr 4 (lipiec 1998): 590–98. http://dx.doi.org/10.1086/297577.

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Wang, Na-Na, Yang Li, Yi-Hao Chen, Rui Lu, Li Zhou, Yao Wang, Yong Zheng i Xue-Bao Li. "Phosphorylation of WRKY16 by MPK3-1 is essential for its transcriptional activity during fiber initiation and elongation in cotton (Gossypium hirsutum)". Plant Cell 33, nr 8 (27.05.2021): 2736–52. http://dx.doi.org/10.1093/plcell/koab153.

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Abstract Cotton, one of the most important crops in the world, produces natural fiber materials for the textile industry. WRKY transcription factors play important roles in plant development and stress responses. However, little is known about whether and how WRKY transcription factors regulate fiber development of cotton so far. In this study, we show that a fiber-preferential WRKY transcription factor, GhWRKY16, positively regulates fiber initiation and elongation. GhWRKY16-silenced transgenic cotton displayed a remarkably reduced number of fiber protrusions on the ovule and shorter fibers compared to the wild-type. During early fiber development, GhWRKY16 directly binds to the promoters of GhHOX3, GhMYB109, GhCesA6D-D11, and GhMYB25 to induce their expression, thereby promoting fiber initiation and elongation. Moreover, GhWRKY16 is phosphorylated by the mitogen-activated protein kinase GhMPK3-1 at residues T-130 and S-260. Phosphorylated GhWRKY16 directly activates the transcription of GhMYB25, GhHOX3, GhMYB109, and GhCesA6D-D11 for early fiber development. Thus, our data demonstrate that GhWRKY16 plays a crucial role in fiber initiation and elongation, and that GhWRKY16 phosphorylation by GhMPK3-1 is essential for the transcriptional activation on downstream genes during the fiber development of cotton.

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3

Zhang, Dayong, Tianzhen Zhang i Wangzhen Guo. "Effect of H2O2 on fiber initiation using fiber retardation initiation mutants in cotton (Gossypium hirsutum)". Journal of Plant Physiology 167, nr 5 (marzec 2010): 393–99. http://dx.doi.org/10.1016/j.jplph.2009.10.005.

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Zhang, Haiping, Mingyan Shao, Zhijun Qiao, Shuna Yuan, Xuede Wang i Shuijin Hua. "Effect of phytohormones on fiber initiation of cotton ovule". Acta Physiologiae Plantarum 31, nr 5 (15.05.2009): 979–86. http://dx.doi.org/10.1007/s11738-009-0313-4.

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Zeng, Jianyan, Mi Zhang, Lei Hou, Wenqin Bai, Xingying Yan, Nan Hou, Hongxing Wang, Juan Huang, Juan Zhao i Yan Pei. "Cytokinin inhibits cotton fiber initiation by disrupting PIN3a-mediated asymmetric accumulation of auxin in the ovule epidermis". Journal of Experimental Botany 70, nr 12 (10.04.2019): 3139–51. http://dx.doi.org/10.1093/jxb/erz162.

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AbstractAuxin-dependent cell expansion is crucial for initiation of fiber cells in cotton (Gossypium hirsutum), which ultimately determines fiber yield and quality. However, the regulation of this process is far from being well understood. In this study, we demonstrate an antagonistic effect between cytokinin (CK) and auxin on cotton fiber initiation. In vitro and in planta experiments indicate that enhanced CK levels can reduce auxin accumulation in the ovule integument, which may account for the defects in the fiberless mutant xu142fl. In turn, supplementation with auxin can recover fiber growth of CK-treated ovules and mutant ovules. We further found that GhPIN3a is a key auxin transporter for fiber-cell initiation and is polarly localized to the plasma membranes of non-fiber cells, but not to those of fiber cells. This polar localization allows auxin to be transported within the ovule integument while specifically accumulating in fiber cells. We show that CKs antagonize the promotive effect of auxin on fiber cell initiation by undermining asymmetric accumulation of auxin in the ovule epidermis through down-regulation of GhPIN3a and disturbance of the polar localization of the protein.

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Salih, Haron, Wenfang Gong, Mtawa Mkulama i Xiongming Du. "Genome-wide characterization, identification, and expression analysis of the WD40 protein family in cotton". Genome 61, nr 7 (lipiec 2018): 539–47. http://dx.doi.org/10.1139/gen-2017-0237.

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WD40 repeat proteins are largely distributed across the plant kingdom and play an important role in diverse biological activities. In this work, we performed genome-wide identification, characterization, and expression level analysis of WD40 genes in cotton. A total of 579, 318, and 313 WD40 genes were found in Gossypium hirsutum, G. arboreum, and G. raimondii, respectively. Based on phylogenetic tree analyses, WD40 genes were divided into 11 groups with high similarities in exon/intron features and protein domains within the group. Expression analysis of WD40 genes showed differential expression at different stages of cotton fiber development (0 and 8 DPA) and cotton stem. A number of miRNAs were identified to target WD40 genes that are significantly involved in cotton fiber development during the initiation and elongation stages. These include miR156, miR160, miR162, miR164, miR166, miR167, miR169, miR171, miR172, miR393, miR396, miR398, miR2950, and miR7505. The findings provide a stronger indication of WD40 gene function and their involvement in the regulation of cotton fiber development during the initiation and elongation stages.

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Cabrales, Luis, i Noureddine Abidi. "Kinetics of Cellulose Deposition in Developing Cotton Fibers Studied by Thermogravimetric Analysis". Fibers 7, nr 9 (29.08.2019): 78. http://dx.doi.org/10.3390/fib7090078.

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During cotton fibers development, important structural changes occur, which lead to cellulose deposition and organization in the secondary cell wall. Several studies have focused on the analysis of the cell wall extracts of cotton fibers to gain an understanding of the changes in carbohydrate profiles and to determine the changes in crystallinity, cellulosic and non-cellulosic compounds at various stages of the fiber cell wall development. In this research, thermogravimetric analysis (TGA) was used to study intact fibers harvested from two cotton genotypes. Cellulose macromolecules structural changes occurring during different developmental stages were studied. The results from TGA technique were in agreement with results from other analytical techniques, which indicates that TGA could be a great tool to investigate the onset of cellulose deposition and to evaluate the cell wall composition during fiber development. The results obtained in this study demonstrated that the initiation of the secondary cell wall is genotype-dependent.

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Jiang, Xiao, Liqiang Fan, Pengtao Li, Xianyan Zou, Zhen Zhang, Senmiao Fan, Juwu Gong, Youlu Yuan i Haihong Shang. "Co-expression network and comparative transcriptome analysis for fiber initiation and elongation reveal genetic differences in two lines from upland cotton CCRI70 RIL population". PeerJ 9 (21.07.2021): e11812. http://dx.doi.org/10.7717/peerj.11812.

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Upland cotton is the most widely planted for natural fiber around the world, and either lint percentage (LP) or fiber length (FL) is the crucial component tremendously affecting cotton yield and fiber quality, respectively. In this study, two lines MBZ70-053 and MBZ70-236 derived from G. hirsutum CCRI70 recombinant inbred line (RIL) population presenting different phenotypes in LP and FL traits were chosen to conduct RNA sequencing on ovule and fiber samples, aiming at exploring the differences of molecular and genetic mechanisms during cotton fiber initiation and elongation stages. As a result, 249/128, 369/206, 4296/1198 and 3547/2129 up-/down- regulated differentially expressed genes (DGEs) in L2 were obtained at −3, 0, 5 and 10 days post-anthesis (DPA), respectively. Seven gene expression profiles were discriminated using Short Time-series Expression Miner (STEM) analysis; seven modules and hub genes were identified using weighted gene co-expression network analysis. The DEGs were mainly enriched into energetic metabolism and accumulating as well as auxin signaling pathway in initiation and elongation stages, respectively. Meanwhile, 29 hub genes were identified as 14-3-3ω, TBL35, GhACS, PME3, GAMMA-TIP, PUM-7, etc., where the DEGs and hub genes revealed the genetic and molecular mechanisms and differences during cotton fiber development.

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W. SEAGULL, ROBERT. "A Quantitative Electron Microscopic Study of Changes in Microtubule Arrays and Wall Microfibril Orientation During in vitro Cotton Fiber Development". Journal of Cell Science 101, nr 3 (1.03.1992): 561–77. http://dx.doi.org/10.1242/jcs.101.3.561.

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A quantitative electron microscopic (E/M) study of the changes in microtubule arrays and wall microfibril orientation has been done on in vitro grown cotton fibers. Microtubules change orientation during cotton fiber development. During fiber initiation and early elongation, microtubules have a generally random orientation. Microtubules re-orient into shallow pitched helices as elongation and primary wall deposition continue, and into steeply pitched helices during secondary wall deposition. Accompanying the changes in orientation are increases in microtubule length, number, proximity to the plasmalemma and a decreased variability in orientation of the microtubules. Based on these observations, three pivotal stages in microtubule patterns were identified during fiber development: (1) the transition between fiber initiation and elongation, where microtubules develop a shallow pitched helical orientation; (2) the transition between primary and secondary wall synthesis, where microtubules abruptly shift orientation to a steeply pitched helical pattern; and (3) early in secondary wall synthesis, where there is a four fold increase in microtubule number. Microfibrils exhibit changes in orientation similar to the microtubules; however significant differences were found when the precise orientations of microtubules and microfibrils were compared. During secondary wall synthesis, wall microfibrils exhibit some variability in orientation due to inter-fibril bundling, thus indicating that components of the wall may also influence final microfibril orientation.

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Cheng, Gongmin, Longyan Zhang, Hengling Wei, Hantao Wang, Jianhua Lu i Shuxun Yu. "Transcriptome Analysis Reveals a Gene Expression Pattern Associated with Fuzz Fiber Initiation Induced by High Temperature in Gossypium barbadense". Genes 11, nr 9 (10.09.2020): 1066. http://dx.doi.org/10.3390/genes11091066.

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Gossypium barbadense is an important source of natural textile fibers, as is Gossypium hirsutum. Cotton fiber development is often affected by various environmental factors, such as abnormal temperature. However, little is known about the underlying mechanisms of temperature regulating the fuzz fiber initiation. In this study, we reveal that high temperatures (HT) accelerate fiber development, improve fiber quality, and induced fuzz initiation of a thermo-sensitive G. barbadense variety L7009. It was proved that fuzz initiation was inhibited by low temperature (LT), and 4 dpa was the stage most susceptible to temperature stress during the fuzz initiation period. A total of 43,826 differentially expressed genes (DEGs) were identified through comparative transcriptome analysis. Of these, 9667 were involved in fiber development and temperature response with 901 transcription factor genes and 189 genes related to plant hormone signal transduction. Further analysis of gene expression patterns revealed that 240 genes were potentially involved in fuzz initiation induced by high temperature. Functional annotation revealed that the candidate genes related to fuzz initiation were significantly involved in the asparagine biosynthetic process, cell wall biosynthesis, and stress response. The expression trends of sixteen genes randomly selected from the RNA-seq data were almost consistent with the results of qRT-PCR. Our study revealed several potential candidate genes and pathways related to fuzz initiation induced by high temperature. This provides a new view of temperature-induced tissue and organ development in Gossypium barbadense.

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Butterworth, Kara M., Dean C. Adams, Harry T. Horner i Jonathan F. Wendel. "Initiation and Early Development of Fiber in Wild and Cultivated Cotton". International Journal of Plant Sciences 170, nr 5 (czerwiec 2009): 561–74. http://dx.doi.org/10.1086/597817.

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BARDAK, Adem, i Yüksel BÖLEK. "Inheritance of fuzz and lint fiber initiation of cotton (Gossypium hirsutum L.)". TURKISH JOURNAL OF AGRICULTURE AND FORESTRY 40 (2016): 606–12. http://dx.doi.org/10.3906/tar-1602-77.

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Nam Bui, Anh Phu. "Employing Arabidopsis Trichome Model In Studying Fiber Initiation In Improving Cotton Yield". Bioscience Biotechnology Research Communications 13, nr 2 (25.06.2020): 535–40. http://dx.doi.org/10.21786/bbrc/13.2/26.

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Liu, Kang, Meiling Han, Chaojun Zhang, Liangyu Yao, Jing Sun i Tianzhen Zhang. "Comparative proteomic analysis reveals the mechanisms governing cotton fiber differentiation and initiation". Journal of Proteomics 75, nr 3 (styczeń 2012): 845–56. http://dx.doi.org/10.1016/j.jprot.2011.09.025.

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15

Wang, Liman, Youmin Zhu, Wenjing Hu, Xueying Zhang, Caiping Cai i Wangzhen Guo. "Comparative Transcriptomics Reveals Jasmonic Acid-Associated Metabolism Related to Cotton Fiber Initiation". PLOS ONE 10, nr 6 (16.06.2015): e0129854. http://dx.doi.org/10.1371/journal.pone.0129854.

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Edwards, J. Vincent, Elena Graves, Nicolette Prevost, Brian Condon, Dorne Yager, Joseph Dacorta i Alvin Bopp. "Development of a Nonwoven Hemostatic Dressing Based on Unbleached Cotton: A De Novo Design Approach". Pharmaceutics 12, nr 7 (30.06.2020): 609. http://dx.doi.org/10.3390/pharmaceutics12070609.

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Minimally processed greige (unbleached) cotton fibers demonstrate enhanced clotting relative to highly processed United States Pharmacopeia (USP) type 7 bleached cotton gauze. This effect is thought to be due to the material surface polarity. We hypothesized that a textile could be constructed, conserving the hemostasis-accelerating properties of greige cotton, while maintaining structural integrity and improving absorbance. Spun bond nonwovens of varying surface polarity were designed and prepared based on ratios of greige cotton/bleached cotton/polypropylene fibers. A thromboelastographic analysis was performed on fibrous samples in citrated blood to evaluate the rate of fibrin and clot formation. Lee White clotting times were obtained to assess the material’s clotting activity in platelet fresh blood. An electrokinetic analysis of samples was performed to analyze for material surface polarity. Hemostatic properties varied with composition ratios, fiber density, and fabric fenestration. The determinations of the surface polarity of cotton fabrics with electrokinetic analysis uncovered a range of surface polarities implicated in fabric-initiated clotting; a three-point design approach was employed with the combined use of thromboelastography, thrombin velocity index, Lee White clotting, and absorption capacity determinations applied to fabric structure versus function analysis. The resulting analysis demonstrates that greige cotton may be utilized, along with hydrophilic and hydrophobic fibers, to improve the initiation of fibrin formation and a decrease in clotting time in hemostatic dressings suitable to be commercially developed. Hydroentanglement is an efficient and effective process for imparting structural integrity to cotton-based textiles, while conserving hemostatic function.

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Yang, Dongjie, Yuanyuan Liu, Hailiang Cheng, Qiaolian Wang, Limin Lv, Youping Zhang, Guoli Song i Dongyun Zuo. "Identification of the Group III WRKY Subfamily and the Functional Analysis of GhWRKY53 in Gossypium hirsutum L." Plants 10, nr 6 (17.06.2021): 1235. http://dx.doi.org/10.3390/plants10061235.

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WRKY transcription factors had multiple functions in plant secondary metabolism, leaf senescence, fruit ripening, adaptation to biotic and abiotic stress, and plant growth and development. However, knowledge of the group III WRKY subfamily in fiber development in upland cotton (Gossypium hirsutum L.) is largely absent. Previous studies have shown that there were 21 putative group III WRKY members in G. hirsutum L. These putative amino acid sequences from the III WRKY group were phylogenetically clustered into three clades. Multiple alignment, conservative motif analysis, and gene structure analysis showed that the members clustered together in the phylogenetic tree had similar motifs and gene structures. Expression pattern analysis revealed that variation in the expression levels of these genes in different tissues and fiber development stages. To better understand the functions of putative group III WRKY genes in G. hirsutum L., we selected the cotton fiber initiation-related gene GhWRKY53 for cloning and functional identification. The subcellular localization experiment of GhWRKY53 in Nicotiana tabacum leaves showed that it was located in the nucleus. The heterologous expression of GhWRKY53 in Arabidopsis thaliana could significantly increase the density of trichomes. Twelve proteins that interacted with GhWRKY53 were screened from the cotton fiber cDNA library by yeast two-hybrid experiment. This study findings lay a foundation for further research on the role of the GhWRKY53 during cotton fiber development and provide a new insight for further studying putative group III WRKY genes in G. hirsutum L. Our research results also provide vital information for the genetic mechanism of high-quality cotton fiber formation and essential genetic resources for cotton fiber quality improvement.

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Chen, Chunming, Zhonghua Chen, Xingrong Zeng i Fei Yu. "Self-assembly of nanoencapsulated undecanoic acid on cotton fiber for thermoregulating textiles". RSC Advances 9, nr 18 (2019): 10024–29. http://dx.doi.org/10.1039/c9ra01602c.

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We herein report the preparation of phase change nanocapsules with undecanoic acid (UA) as the core and a styrene–butyl acrylate copolymer as the shell by miniemulsion polymerization using interfacial redox initiation.

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Wang, Xu-Chu, Qin Li, Xiang Jin, Guang-Hui Xiao, Gao-Jun Liu, Nin-Jing Liu i Yong-Mei Qin. "Quantitative proteomics and transcriptomics reveal key metabolic processes associated with cotton fiber initiation". Journal of Proteomics 114 (styczeń 2015): 16–27. http://dx.doi.org/10.1016/j.jprot.2014.10.022.

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Liu, Wenying, Bing Zhang, Wenying He, Zi Wang, Guanqiao Li i Jinyuan Liu. "Characterization ofin vivophosphorylation modification of differentially accumulated proteins in cotton fiber-initiation process". Acta Biochimica et Biophysica Sinica 48, nr 8 (13.06.2016): 756–61. http://dx.doi.org/10.1093/abbs/gmw055.

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Deng, Fenglin, Lili Tu, Jiafu Tan, Yang Li, Yichun Nie i Xianlong Zhang. "GbPDF1 Is Involved in Cotton Fiber Initiation via the Core cis-Element HDZIP2ATATHB2". Plant Physiology 158, nr 2 (28.11.2011): 890–904. http://dx.doi.org/10.1104/pp.111.186742.

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Li, Yunjing, Diqiu Liu, Lili Tu, Xianlong Zhang, Li Wang, Longfu Zhu, Jiafu Tan i Fenglin Deng. "Suppression of GhAGP4 gene expression repressed the initiation and elongation of cotton fiber". Plant Cell Reports 29, nr 2 (30.12.2009): 193–202. http://dx.doi.org/10.1007/s00299-009-0812-1.

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Ma, Qifeng, Man Wu, Wenfeng Pei, Haijing Li, Xingli Li, Jinfa Zhang, Jiwen Yu i Shuxun Yu. "Quantitative phosphoproteomic profiling of fiber differentiation and initiation in a fiberless mutant of cotton". BMC Genomics 15, nr 1 (2014): 466. http://dx.doi.org/10.1186/1471-2164-15-466.

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Ahmed, M., S. Akhtar, M. Fanglu, M. M. Hasan, A. A. Shahid, X. Yanang, M. B. Sarwar, A. Q. Rao, T. Husnain i X. Wang. "Sucrose Synthase (SuSy) Gene Expression: An Indicator for Cotton Fiber Initiation and Early Development". Russian Journal of Plant Physiology 66, nr 1 (styczeń 2019): 41–49. http://dx.doi.org/10.1134/s1021443719010023.

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HU, Ming-yu, Ming LUO, Yue-hua XIAO, Xian-bi LI, Kun-ling TAN, Lei HOU, Jing DONG i in. "Brassinosteroids and Auxin Down-Regulate DELLA Genes in Fiber Initiation and Elongation of Cotton". Agricultural Sciences in China 10, nr 8 (sierpień 2011): 1168–76. http://dx.doi.org/10.1016/s1671-2927(11)60107-7.

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Xie, Wuzi, Norma L. Trolinder i Candace H. Haigler. "Cool Temparature Effects on Cotton Fiber Initiation and Elongation Clarified Using In Vitro Cultures". Crop Science 33, nr 6 (listopad 1993): 1258–64. http://dx.doi.org/10.2135/cropsci1993.0011183x003300060029x.

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Zhang, Mi, Hui-zhen Cao, Lei Hou, Shui-qing Song, Jian-yan Zeng i Yan Pei. "In vivo imaging of Ca2+ accumulation during cotton fiber initiation using fluorescent indicator YC3.60". Plant Cell Reports 36, nr 6 (8.03.2017): 911–18. http://dx.doi.org/10.1007/s00299-017-2122-3.

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Li, Chengqi, Wangzhen Guo i Tianzhen Zhang. "Fiber initiation development in Upland cotton (Gossypium hirsutum L.) cultivars varying in lint percentage". Euphytica 165, nr 2 (10.06.2008): 223–30. http://dx.doi.org/10.1007/s10681-008-9740-3.

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Ruan, Yong-Ling, Danny J. Llewellyn i Robert T. Furbank. "Suppression of Sucrose Synthase Gene Expression Represses Cotton Fiber Cell Initiation, Elongation, and Seed Development". Plant Cell 15, nr 4 (13.03.2003): 952–64. http://dx.doi.org/10.1105/tpc.010108.

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Huang, Geng-Qing, Si-Ying Gong, Wen-Liang Xu, Wen Li, Peng Li, Chao-Jun Zhang, Deng-Di Li, Yong Zheng, Fu-Guang Li i Xue-Bao Li. "A Fasciclin-Like Arabinogalactan Protein, GhFLA1, Is Involved in Fiber Initiation and Elongation of Cotton". Plant Physiology 161, nr 3 (24.01.2013): 1278–90. http://dx.doi.org/10.1104/pp.112.203760.

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Zhu, Qian-Hao, Warwick Stiller, Philippe Moncuquet, Stuart Gordon, Yuman Yuan, Scott Barnes i Iain Wilson. "Genetic mapping and transcriptomic characterization of a new fuzzless-tufted cottonseed mutant". G3 Genes|Genomes|Genetics 11, nr 1 (24.12.2020): 1–14. http://dx.doi.org/10.1093/g3journal/jkaa042.

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Abstract Fiber mutants are unique and valuable resources for understanding the genetic and molecular mechanisms controlling initiation and development of cotton fibers that are extremely elongated single epidermal cells protruding from the seed coat of cottonseeds. In this study, we reported a new fuzzless-tufted cotton mutant (Gossypium hirsutum) and showed that fuzzless-tufted near-isogenic lines (NILs) had similar agronomic traits and a higher ginning efficiency compared to their recurrent parents with normal fuzzy seeds. Genetic analysis revealed that the mutant phenotype is determined by a single incomplete dominant locus, designated N5. The mutation was fine mapped to an approximately 250-kb interval containing 33 annotated genes using a combination of bulked segregant sequencing, SNP chip genotyping, and fine mapping. Comparative transcriptomic analysis using 0–6 days post-anthesis (dpa) ovules from NILs segregating for the phenotypes of fuzzless-tufted (mutant) and normal fuzzy cottonseeds (wild-type) uncovered candidate genes responsible for the mutant phenotype. It also revealed that the flanking region of the N5 locus is enriched with differentially expressed genes (DEGs) between the mutant and wild-type. Several of those DEGs are members of the gene families with demonstrated roles in cell initiation and elongation, such as calcium-dependent protein kinase and expansin. The transcriptome landscape of the mutant was significantly reprogrammed in the 6 dpa ovules and, to a less extent, in the 0 dpa ovules, but not in the 2 and 4 dpa ovules. At both 0 and 6 dpa, the reprogrammed mutant transcriptome was mainly associated with cell wall modifications and transmembrane transportation, while transcription factor activity was significantly altered in the 6 dpa mutant ovules. These results imply a similar molecular basis for initiation of lint and fuzz fibers despite certain differences.

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Bowling, Andrew J., Kevin Christopher Vaughn i Rickie B. Turley. "Polysaccharide and glycoprotein distribution in the epidermis of cotton ovules during early fiber initiation and growth". Protoplasma 248, nr 3 (28.09.2010): 579–90. http://dx.doi.org/10.1007/s00709-010-0212-y.

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Hu, Haiyan, Xin He, Lili Tu, Longfu Zhu, Sitao Zhu, Zonghe Ge i Xianlong Zhang. "GhJAZ2 negatively regulates cotton fiber initiation by interacting with the R2R3-MYB transcription factor GhMYB25-like". Plant Journal 88, nr 6 (25.10.2016): 921–35. http://dx.doi.org/10.1111/tpj.13273.

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Zhang, Mi, Yuehua Xiao, Jianyan Zeng i Yan Pei. "PIN-formed protein, a door to reveal the mechanism for auxin-triggered initiation of cotton fiber". Plant Signaling & Behavior 12, nr 5 (4.05.2017): e1319031. http://dx.doi.org/10.1080/15592324.2017.1319031.

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Luo, Ming, Yuehua Xiao, Xianbi Li, Xiaofeng Lu, Wei Deng, Demou Li, Lei Hou, Mingyu Hu, Yi Li i Yan Pei. "GhDET2, a steroid 5α-reductase, plays an important role in cotton fiber cell initiation and elongation". Plant Journal 51, nr 3 (12.06.2007): 419–30. http://dx.doi.org/10.1111/j.1365-313x.2007.03144.x.

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Ma, Rendi, Wangyang Song, Fei Wang, Aiping Cao, Shuangquan Xie, Xifeng Chen, Xiang Jin i Hongbin Li. "A Cotton (Gossypium hirsutum) Myo-Inositol-1-Phosphate Synthase (GhMIPS1D) Gene Promotes Root Cell Elongation in Arabidopsis". International Journal of Molecular Sciences 20, nr 5 (11.03.2019): 1224. http://dx.doi.org/10.3390/ijms20051224.

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Myo-inositol-1-phosphate synthase (MIPS, EC 5.5.1.4) plays important roles in plant growth and development, stress responses, and cellular signal transduction. MIPS genes were found preferably expressed during fiber cell initiation and early fast elongation in upland cotton (Gossypium hirsutum), however, current understanding of the function and regulatory mechanism of MIPS genes to involve in cotton fiber cell growth is limited. Here, by genome-wide analysis, we identified four GhMIPS genes anchoring onto four chromosomes in G. hirsutum and analyzed their phylogenetic relationship, evolutionary dynamics, gene structure and motif distribution, which indicates that MIPS genes are highly conserved from prokaryotes to green plants, with further exon-intron structure analysis showing more diverse in Brassicales plants. Of the four GhMIPS members, based on the significant accumulated expression of GhMIPS1D at the early stage of fiber fast elongating development, thereby, the GhMIPS1D was selected to investigate the function of participating in plant development and cell growth, with ectopic expression in the loss-of-function Arabidopsis mips1 mutants. The results showed that GhMIPS1D is a functional gene to fully compensate the abnormal phenotypes of the deformed cotyledon, dwarfed plants, increased inflorescence branches, and reduced primary root lengths in Arabidopsis mips1 mutants. Furthermore, shortened root cells were recovered and normal root cells were significantly promoted by ectopic expression of GhMIPS1D in Arabidopsis mips1 mutant and wild-type plants respectively. These results serve as a foundation for understanding the MIPS family genes in cotton, and suggest that GhMIPS1D may function as a positive regulator for plant cell elongation.

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Salih, Haron, Shoupu He, Hongge Li, Zhen Peng i Xiongming Du. "Investigation of the EIL/EIN3 Transcription Factor Gene Family Members and Their Expression Levels in the Early Stage of Cotton Fiber Development". Plants 9, nr 1 (20.01.2020): 128. http://dx.doi.org/10.3390/plants9010128.

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The ethylene-insensitive3-like/ethylene-insensitive3 (EIL/EIN3) protein family can serve as a crucial factor for plant growth and development under diverse environmental conditions. EIL/EIN3 protein is a form of a localized nuclear protein with DNA-binding activity that potentially contributes to the intricate network of primary and secondary metabolic pathways of plants. In light of recent research advances, next-generation sequencing (NGS) and novel bioinformatics tools have provided significant breakthroughs in the study of the EIL/EIN3 protein family in cotton. In turn, this paved the way to identifying and characterizing the EIL/EIN3 protein family. Hence, the high-throughput, rapid, and cost-effective meta sequence analyses have led to a remarkable understanding of protein families in addition to the discovery of novel genes, enzymes, metabolites, and other biomolecules of the higher plants. Therefore, this work highlights the recent advance in the genomic-sequencing analysis of higher plants, which has provided a plethora of function profiles of the EIL/EIN3 protein family. The regulatory role and crosstalk of different metabolic pathways, which are apparently affected by these transcription factor proteins in one way or another, are also discussed. The ethylene hormone plays an important role in the regulation of reactive oxygen species in plants under various environmental stress circumstances. EIL/EIN3 proteins are the key ethylene-signaling regulators and play important roles in promoting cotton fiber developmental stages. However, the function of EIL/EIN3 during initiation and early elongation stages of cotton fiber development has not yet been fully understood. The results provided valuable information on cotton EIL/EIN3 proteins, as well as a new vision into the evolutionary relationships of this gene family in cotton species.

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Wang, Zheng-Ming, Wei Xue, Chun-Juan Dong, Long-Guo Jin, Shao-Min Bian, Chuan Wang, Xiu-Yun Wu i Jin-Yuan Liu. "A Comparative miRNAome Analysis Reveals Seven Fiber Initiation-Related and 36 Novel miRNAs in Developing Cotton Ovules". Molecular Plant 5, nr 4 (lipiec 2012): 889–900. http://dx.doi.org/10.1093/mp/ssr094.

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Kumar, Rakesh, Joy Das, K. P. Raghavendra i Sukhadeo B. Nandeshwar. "Identification and Expression Pattern Analysis of Two Gossypium hirsutum Zinc Finger Transcription Factors During Cotton Fiber Initiation". National Academy Science Letters 43, nr 2 (17.07.2019): 115–19. http://dx.doi.org/10.1007/s40009-019-00822-0.

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Du, Shao-Jun, Chun-Juan Dong, Bing Zhang, Tong-Fei Lai, Xiong-Ming Du i Jin-Yuan Liu. "Comparative proteomic analysis reveals differentially expressed proteins correlated with fuzz fiber initiation in diploid cotton (Gossypium arboreum L.)". Journal of Proteomics 82 (kwiecień 2013): 113–29. http://dx.doi.org/10.1016/j.jprot.2013.02.020.

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Wang, Lu, Akiko Cook, John W. Patrick, Xiao-Ya Chen i Yong-Ling Ruan. "Silencing the vacuolar invertase geneGhVIN1blocks cotton fiber initiation from the ovule epidermis, probably by suppressing a cohort of regulatory genes via sugar signaling". Plant Journal 78, nr 4 (29.04.2014): 686–96. http://dx.doi.org/10.1111/tpj.12512.

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Yao, Yuan, Bing Zhang, Chun-Juan Dong, Ying Du, Lin Jiang i Jin-Yuan Liu. "Comparative Proteomic and Biochemical Analyses Reveal Different Molecular Events Occurring in the Process of Fiber Initiation between Wild-Type Allotetraploid Cotton and Its Fuzzless-Lintless Mutant". PLOS ONE 10, nr 2 (20.02.2015): e0117049. http://dx.doi.org/10.1371/journal.pone.0117049.

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Ruan, Yong-Ling, Danny J. Llewellyn i Robert T. Furbank. "Pathway and control of sucrose import into initiating cotton fibre cells". Functional Plant Biology 27, nr 9 (2000): 795. http://dx.doi.org/10.1071/pp99154.

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This paper originates from a presentation at the International Conference on Assimilate Transport and Partitioning, Newcastle, NSW, August 1999 Our aim is to unravel the mechanisms controlling fibre cell initiation from the epidermis of cotton (Gossypium hirsutum L.) ovules. We compared the development of fibres and trichomes in wild type cotton and a fibreless seed (fls) mutant, and determined the cellular pathway of sucrose transport into fibre initials on the day of anthesis. Although fibre initiation is inhibited in the fls mutant, leading to the fibreless phenotype, trichome development in other parts of the plant is normal. Confocal imaging analysis revealed that the fluorescent molecule, 5(6)-carboxyfluorescein, which is transported symplastically, moved readily from the integument phloem into initiating fibres. Plasmolysis studies showed that the fibre initials and adjacent non-initiating ovule epidermal cells have similar osmotic potential. Immunolocalisation analysis showed the absence of sucrose transporter proteins in the initiating fibre, but their abundance in the transfer cell precursors at the innermost integument. These results (i) demonstrate that fibre cell initiation is controlled by unique mechanism(s) that differ from that for normal trichome development; (ii) show a symplastic pathway of sucrose import into initiating fibres and strengthen the current opinion that sucrose synthase is likely to be the key enzyme mobilising sucrose into initiating fibres; and (iii) suggest that the initial protrusion of the fibre cells above the ovule surface is largely achieved by increased cell wall extensibility rather than higher turgor as is commonly thought.

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Feng, Xiaoxu, Shang Liu, Hailiang Cheng, Dongyun Zuo, Youping Zhang, Qiaolian Wang, Limin Lv i Guoli Song. "Weighted Gene Co-Expression Network Analysis Reveals Hub Genes Contributing to Fuzz Development in Gossypium arboreum". Genes 12, nr 5 (17.05.2021): 753. http://dx.doi.org/10.3390/genes12050753.

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Fuzzless mutants are ideal materials to decipher the regulatory network and mechanism underlying fuzz initiation and formation. In this study, we utilized two Gossypium arboreum accessions differing in fuzz characteristics to explore expression pattern differences and discriminate genes involved in fuzz development using RNA sequencing. Gene ontology (GO) analysis was conducted and found that DEGs were mainly enriched in the regulation of transcription, metabolic processes and oxidation–reduction-related processes. Weighted gene co-expression network analysis discerned the MEmagenta module highly associated with a fuzz/fuzzless trait, which included a total of 50 hub genes differentially expressed between two materials. GaFZ, which negatively regulates trichome and fuzz formation, was found involved in MEmagenta cluster1. In addition, twenty-eight hub genes in MEmagenta cluster1 were significantly up-regulated and expressed in fuzzless mutant DPL972. It is noteworthy that Ga04G1219 and Ga04G1240, which, respectively, encode Fasciclin-like arabinogalactan protein 18(FLA18) and transport protein, showed remarkable differences of expression level and implied that they may be involved in protein glycosylation to regulate fuzz formation and development. This module and hub genes identified in this study will provide new insights on fiber and fuzz formation and be useful for the molecular design breeding of cotton genetic improvement.

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Ruan, Yong-Ling, i Prem S. Chourey. "A Fiberless Seed Mutation in Cotton Is Associated with Lack of Fiber Cell Initiation in Ovule Epidermis and Alterations in Sucrose Synthase Expression and Carbon Partitioning in Developing Seeds". Plant Physiology 118, nr 2 (1.10.1998): 399–406. http://dx.doi.org/10.1104/pp.118.2.399.

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Liu, Xueying, Philippe Moncuquet, Qian-Hao Zhu, Warwick Stiller, Zhengsheng Zhang i Iain Wilson. "Genetic Identification and Transcriptome Analysis of Lintless and Fuzzless Traits in Gossypium arboreum L." International Journal of Molecular Sciences 21, nr 5 (29.02.2020): 1675. http://dx.doi.org/10.3390/ijms21051675.

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Cotton fibres, as single cells arising from the seed coat, can be classified as lint and fuzz according to their final length. Gossypium arboreum is a cultivated diploid cotton species and a potential donor of the A subgenome of the more widely grown tetraploid cottons. In this study, we performed genetic studies on one lintless and seven fuzzless G. arboreum accessions. Through association and genetic linkage analyses, a recessive locus on Chr06 containing GaHD-1 was found to be the likely gene underlying the lintless trait. GaHD-1 carried a mutation at a splicing acceptor site that resulted in alternative splicing and a deletion of 247 amino acid from the protein. The regions containing GaGIR1 and GaMYB25-like were found to be associated with fuzz development in G. arboreum, with the former being the major contributor. Comparative transcriptome analyses using 0-5 days post-anthesis (dpa) ovules from lintless, fuzzless, and normal fuzzy seed G. arboreum accessions revealed gene modules and hub genes potentially important for lint and fuzz initiation and development. Three significant modules and 26 hub genes associated with lint fibre initiation were detected by weighted gene co-expression network analysis. Similar analyses identified three vital modules and 10 hub genes to be associated with fuzz development. The findings in this study contribute to understanding the complex molecular mechanism(s) regulating fibre initiation and development and indicate that G. arboreum may have fibre developmental pathways different from tetraploid cotton. It also provides candidate genes for further investigation into modifying fibre development in G. arboreum.

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Ma, Wei, Sen Du, Shumin Yan, Xiaolin Yu, Zhongjian Zhang i Shufen Zhang. "Salt-Free Dyeing of Modified Cotton through Graft Polymerization with Highly Enhanced Dye Fixation and Good Strength Properties". Polymers 12, nr 2 (17.02.2020): 462. http://dx.doi.org/10.3390/polym12020462.

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Modification of cotton fabric with 2-methacryloyloxyethyltrimethyl ammonium chloride (DMC) was achieved through free-radical initiated graft polymerization with K2S2O8/NaHSO3 as the initiator. Grafting of DMC was confirmed by ATR-IR of the modified cotton. The optimal grafting reaction conditions, including DMC dosage, mole ratio of initiator to DMC, temperature, and time, were determined by cation content and dye fixation results of the modified cotton. The modified fibers were characterized by X-ray diffraction (XRD), scanning electron microscope (SEM), and whiteness measurement. Salt-free dyeing of the modified cotton with commonly used C. I. Reactive Blue 19, C. I. Reactive Yellow 145, and C. I. Reactive Red 195 presented high fixation of 96.8%, 98.7%, and 97.3%, respectively. These results indicated that the modification is effective for changing the surface charge of the fiber and increasing the dye-fiber reactivity. The color fastness and strength property were still very satisfactory. With excellent properties, this dyeing method shows promise in real application for eliminating the usage of salt and reducing environmental pollution.

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Lovell, David, Yingru Wu, Rosemary White, Adriane Machado, Danny J. Llewellyn, Elizabeth S. Dennis i Robert S. Anderssen. "Phenotyping cotton ovule fibre initiation with spatial statistics". Australian Journal of Botany 55, nr 6 (2007): 608. http://dx.doi.org/10.1071/bt07003.

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Yield in cultivated cotton (Gossypium spp.) is affected by the number and distribution of fibres initiated on the seed surface but, apart from simple statistical summaries, little has been done to assess this phenotype quantitatively. Here we use two types of spatial statistics to describe and quantify differences in patterning of cotton ovule fibre initials (FI). The following five different species of Gossypium were analysed: G. hirsutum L., G. barbadense L., G. arboreum, G. raimondii Ulbrich. and G. trilobum (DC.) Skovsted. Scanning electron micrographs of FIs were taken on the day of anthesis. Cell centres for fibre and epidermal cells were digitised and analysed by spatial statistics methods appropriate for marked point processes and tessellations. Results were consistent with previously published reports of fibre number and spacing. However, it was shown that the spatial distributions of FIs in all of species examined exhibit regularity, and are not completely random as previously implied. The regular arrangement indicates FIs do not appear independently of each other and we surmise there may be some form of mutual inhibition specifying fibre-initial development. It is concluded that genetic control of FIs differs from that of stomata, another well studied plant idioblast. Since spatial statistics show clear species differences in the distribution of FIs within this genus, they provide a useful method for phenotyping cotton.

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Ruan, Yong-Ling. "Recent advances in understanding cotton fibre and seed development". Seed Science Research 15, nr 4 (grudzień 2005): 269–80. http://dx.doi.org/10.1079/ssr2005217.

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The unique feature of the seed of tetraploid cotton (Gossypium hirsutum and Gossypium barbadense) is that about 30% of the seed coat epidermal cells develop into cellulose-enriched fibres, while the embryos synthesize oils and proteins. Hence, both the maternal and filial tissues of the cotton seed are of significant economic value. After initiation from the ovule epidermis at or just before anthesis, the single-celled fibres elongate to 2.5–6.0 cm long in the tetraploid species before they switch to intensive secondary cell wall cellulose synthesis. Thus, apart from its agronomic importance, the cotton fibre represents a model single-cell system to study the control of cell differentiation and elongation, carbon partitioning to cellulose synthesis and also the interaction between maternal (fibre) and embryonic tissues in seeds. Over the past decade or so, significant effort has been made to understand the cellular and molecular basis of cotton fibre development and oil biosynthesis in the embryo. Metabolic engineering of the oil biosynthetic pathway in cotton seed has successfully produced healthier and stable oils. A number of candidate genes and cellular processes that potentially regulate various aspects of fibre development have been identified. Further elucidation of the in vivo functions of those candidate genes could significantly deepen our understanding of fibre development and offer potential for improvement of fibre quality through genetic engineering or marker-assisted breeding approaches.

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Wu, Yingru, Adriane C. Machado, Rosemary G. White, Danny J. Llewellyn i Elizabeth S. Dennis. "Expression Profiling Identifies Genes Expressed Early During Lint Fibre Initiation in Cotton". Plant and Cell Physiology 47, nr 1 (1.01.2006): 107–27. http://dx.doi.org/10.1093/pcp/pci228.

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