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Proline-rich proteins contribute to cell wall structure of specific cell types and are involved in plant growth and development. In this study, a fiber-specific gene, GhPRP5, encoding a proline-rich protein was functionally characterized in cotton. GhPRP5 promoter directed GUS expression only in trichomes of both transgenic Arabidopsis and tobacco plants. The transgenic Arabidopsis plants with overexpressing GhPRP5 displayed reduced cell growth, resulting in smaller cell size and consequently plant dwarfs, in comparison with wild type plants. In contrast, knock-down of GhPRP5 expression by RNA interference in cotton enhanced fiber development. The fiber length of transgenic cotton plants was longer than that of wild type. In addition, some genes involved in fiber elongation and wall biosynthesis of cotton were up-regulated or down-regulated in the transgenic cotton plants owing to suppression of GhPRP5. Collectively, these data suggested that GhPRP5 protein as a negative regulator participates in modulating fiber development of cotton.  相似文献   

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Engineering of plant protection requires well-characterized tissue-specific promoters for the targeted expression of insecticidal resistance genes. Herein, we describe the isolation of five different fragments of promoters of three distinct flower-specific cotton (Gossypium hirsutum) genes. Expression analyses of the three genes GhPME-like1, GhβGal-like1 and GhPL-like1 revealed that they are expressed highly in flowers buds ranging from 4 to 12 mm in size. Several putative regulatory cis-elements were identified in the promoter regions, including elements involved in the control of tissue-specific gene expression in pollen grains and fruits. In vivo analyses of these promoters were performed using the heterologous plant system Arabidopsis thaliana by fusing them with the gene uidA (GUS). GUS staining in Arabidopsis tissues revealed that their expression was restricted to anthers, with the majority of expression in pollen grains and in the upper portion of the carpels and siliques. A comparison between a CaMV35S::GUS constitutive promoter and the promoters isolated in this study revealed that the cotton promoters were more active and were specific to flowers and fruits, which are organs that are preferentially attacked by important pest insects such as the boll weevil (Anthonomus grandis). The activity of the promoters was also confirmed using transient expression assays in flower buds of G. hirsutum. The promoters of GhPME-like1, GhβGal-like1 and GhPL-like1 are specific to reproductive tissues and could represent important biotechnological tools for controlling insect pests, in particular the cotton boll weevil, which attacks floral and fruit tissues.  相似文献   

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Small RNAs are a group of non-coding RNAs that downregulate gene expression in a sequence-specific manner to control plant growth and development. The objective of the present study was to clone and characterize several small RNAs in cotton. To identify small RNAs that are involved in the development of cotton bolls and fibers, we generated cDNA libraries from cotton bolls at 13?days post-anthesis from two cotton cultivars, Pima Phy 76 (Gossypium bardadense) and Acala 1517?C99 (Gossypium hirsutum). Screening of these libraries identified eight small RNAs, seven of which have not been reported in other plant species and appear to be absent in the known sequences of other plant species. Their predicted target genes are known to be involved in cotton fiber development. The cloned small RNAs displayed lower and differential expression in the examined boll developmental stages using RT-PCR and quantitative RT-PCR. The genetic polymorphism of the small RNAs at the DNA level was evaluated by miRNA-amplified fragment length polymorphism (AFLP) analysis using primers designed from the small miRNA genes in combination with AFLP primers. Homologous small RNA gene sequences were further isolated using this homology-based genotyping approach, and potential hairpin structures were identified. The results represent a novel method to isolate small including miRNA genes at the RNA and DNA levels in many plant species where genome sequences are not available or expressed sequence tags are limited.  相似文献   

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以导入大肠杆菌过氧化氢酶基因KatE的T3代转基因棉花为供试材料,经卡那霉素检测和PCR鉴定,将筛选出的阳性转基因植株与对照棉花进行整个生育期的持续水分胁迫处理直至收获,比较材料间的生理生化指标的差异,鉴定转基因植株的耐旱能力。结果显示:(1)干旱胁迫持续至初蕾期时,转基因棉花与对照植株间各项抗旱生理指标差异均未达到显著水平。(2)水分胁迫持续至盛蕾和盛花期时,转基因棉花叶片相对含水量、光系统Ⅱ最大光化学效率(Fv/Fm)、CAT活性,以及叶片的净光合速率(Pn)、气孔导度(Gs)和蒸腾速率(Tr)均显著或极显著高于对照植株,叶绿素含量也都明显高于对照植株。干旱胁迫持续至吐絮期时,转基因棉花的株高、果枝数和铃数均显著或极显著高于对照植株,且转基因棉花和对照的籽棉产量分别比正常灌溉处理降低57.5%和60.1%,全生育期的水分胁迫严重影响了棉花籽棉产量,但转基因棉花的籽棉产量仍显著高于对照。研究表明,在新疆石河子当地自然降水(干旱胁迫)条件下,转KatE基因棉花表现出了较好的生理和生长优势,KatE基因有助于提高棉花的抗旱性。  相似文献   

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Cotton leaf curl Burewala virus (CLCuBuV), belonging to the genus Begomovirus, possesses single-stranded monopartite DNA genome. The bidirectional promoters representing Rep and coat protein (CP) genes of CLCuBuV were characterized and their efficacy was assayed. Rep and CP promoters of CLCuBuV and 35S promoter of Cauliflower mosaic virus (CaMV) were fused with β-glucuronidase (GUS) and green fluorescent protein (GFP) reporter genes. GUS activity in individual plant cells driven by Rep, CP and 35S promoters was estimated using real-time PCR and fluorometric GUS assay. Histochemical staining of GUS in transformed tobacco (Nicotiana tabacum cv. Xanthi) leaves showed highest expression driven by Rep promoter followed by 35S promoter and CP promoter. The expression level of GUS driven by Rep promoter in transformed tobacco plants was shown to be two to four-fold higher than that of 35S promoter, while the expression by CP promoter was slightly lower. Further, the expression of GFP was monitored in agroinfiltrated leaves of N. benthamiana, N. tabacum and cotton (Gossypium hirsutum) plants using confocal laser scanning microscopy. Rep promoter showed strong consistent transient expression in tobacco and cotton leaves as compared to 35S promoter. The strong constitutive CLCuBuV Rep promoter developed in this study could be very useful for high level expression of transgenes in a wide variety of plant cells.  相似文献   

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利用电子序列拼接结合RT-PCR技术,从12DPA(开花后天数)棉纤维中克隆到1个编码富含脯氨酸蛋白(PRPs)基因,命名为GhPRP10(登录号KP036633)。GhPRP10基因开放阅读框为684bp,编码228个氨基酸,其中脯氨酸(Pro)含量为34.6%。序列分析发现GhPRP10蛋白具有N端信号肽和富含脯氨酸区域,属于第一类PRPs。实时荧光定量PCR(RT-PCR)结果显示,GhPRP10在棉纤维组织中优势表达,在纤维发育过程中的表达量呈现先升高后降低的趋势,在18DPA纤维中表达量最高。利用Gateway技术构建植物过量表达载体,转入烟草BY-2悬浮细胞,表型观察和细胞长度测量结果显示,转GhPRP10基因细胞比野生型细胞显著增长。根据该基因的组织表达特征和转基因细胞表型分析,推测GhPRP10基因在纤维伸长和次生壁合成过程中发挥作用。  相似文献   

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Cotton aphid (Aphis gossypii Glover) is one of the most important economic pests in the world. Long-term unreasonable usage of insecticides has made cotton aphid developing insecticide-resistance, which frequently leads to serious occurrences of cotton aphid in many regions. It is regarded effective and environmentally friendly to control aphids through utilizing plant resistance. In this study, a translationally controlled tumor protein gene, GhTCTP1, was isolated in cotton. It belongs to TCTP subfamily and encodes a protein of 168 amino acids. GhTCTP1 expression was suppressed in cotton plants under cotton aphid attack, but its expression level was up-regulated in the wounded cotton leaves. The choice test and no-choice test demonstrated that overexpression of GhTCTP1 in Arabidopsis enhanced plant resistance to green peach aphid (Myzus persicae). Quantitative RT-PCR analysis revealed that the defense response genes related to salicylic acid signaling pathway were activated in the GhTCTP1 overexpressing transgenic plants. Content of total amino acids was decreased, and phenylalanine ammonialyase activity was altered in leaves of the transgenic Arabidopsis plants, compared with those in wild type. Furthermore, the callose amount in transgenic Arabidopsis leaves was more than that of wild type. These data suggested that GhTCTP1 might be involved in regulation of plant tolerance to aphids, and can be potentially applied in improving aphid-resistance of crops by genetic manipulation.  相似文献   

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Arabinogalactan proteins (AGPs), are a group of highly glycosylated proteins that are found throughout the plant kingdom. To date, glycosyltransferases that glycosylate AGP backbone have remained largely unknown. In this study, a gene (GhGalT1) encoding a putative β-1,3-galactosyltransferase (GalT) was identified in cotton. GhGalT1, belonging to CAZy GT31 family, is the type II membrane protein that contains an N-terminal transmembrane domain and a C-terminal galactosyltransferase functional domain. A subcellular localization assay demonstrated that GhGalT1 was localized in the Golgi apparatus. RT-PCR analysis revealed that GhGalT1 was expressed at relatively high levels in hypocotyls, roots, fibers and ovules. Overexpression of GhGalT1 in Arabidopsis promoted plant growth and metabolism. The transgenic seedlings had much longer primary roots, higher chlorophyll content, higher photosynthetic efficiency, the increased biomass, and the enhanced tolerance to exogenous D-arabinose and D-galactose. In addition, gas chromatography (GC) analysis of monosaccharide composition of cell wall fractions showed that pectin was changed in the transgenic plants, compared with that of wild type. Three genes (GAUT8, GAUT9 and xgd1) involved in pectin biosynthesis were dramatically up-regulated in the transgenic lines. These data suggested that GhGalT1 may be involved in regulation of pectin biosynthesis required for plant development.  相似文献   

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Cotton fiber is the basic raw material used in the textile industry. The fiber yield is severely affected by a number of biotic and abiotic factors, such as insects, viruses, drought and salinity. Drought is a major factor that negatively impacts the yields and quality of cotton fiber. Promoters that respond to stress conditions and up-regulate transgenes are of great significance in crop improvement using genetic engineering approach. Although dehydration-responsive gene promoters, such as RD22 and RD29 from Arabidopsis, have been characterized, not much information is available regarding stress-responsive promoters from Gossypium hirsutum, which accounts for approximately 90 % of cultivated cotton. In this study, we isolated and characterized the promoter of a dehydration-responsive gene (GhRDL1) from G. hirsutum using Agrobacterium-mediated transformation in tobacco and cotton. Transgenic tobacco plants expressing uidA under the GhRDL1 promoter showed GUS activity in the trichomes. Also, GUS expression was observed to some extent in leaf, stem and floral tissues. Similar results were observed when GhRDL1 promoter was tested in transgenic cotton. Most importantly, our study showed that the GhRDL1 promoter is up-regulated in the presence of polyethylene glycol that creates water stress under invitro conditions. Thus, the GhRDL1 promoter may find its usefulness in the development of stress-tolerant cotton and other crop species in the near future.  相似文献   

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Mitogen-activated protein kinase (MAPK) cascades play pivotal roles in mediating biotic and abiotic stress responses. Cotton (Gossypium hirsutum) is the most important textile crop in the world, and often encounters abiotic stress during its growth seasons. In this study, a gene encoding a mitogen-activated protein kinase (MAPK) was isolated from cotton, and designated as GhMPK17. The open reading frame (ORF) of GhMPK17 gene is 1494 bp in length and encodes a protein with 497 amino acids. Quantitative RT-PCR analysis indicated that GhMPK17 expression was up-regulated in cotton under NaCl, mannitol and ABA treatments. The transgenic Arabidopsis plants expressing GhMPK17 gene showed higher seed germination, root elongation and cotyledon greening/expansion rates than those of the wild type on MS medium containing NaCl, mannitol and exogenous ABA, suggesting that overexpression of GhMPK17 in Arabidopsis increased plant ABA-insensitivity, and enhanced plant tolerance to salt and osmotic stresses. Furthermore, overexpression of GhMPK17 in Arabidopsis reduced H2O2 level and altered expression of ABA- and abiotic stress-related genes in the transgenic plants. Collectively, these data suggested that GhMPK17 gene may be involved in plant response to high salinity and osmotic stresses and ABA signaling.  相似文献   

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The HUB2 gene encoding histone H2B monoubiquitination E3 ligase is involved in seed dormancy, flowering timing, defence response and salt stress regulation in Arabidopsis thaliana. In this study, we used the cauliflower mosaic virus (CaMV) 35S promoter to drive AtHUB2 overexpression in cotton and found that it can significantly improve the agricultural traits of transgenic cotton plants under drought stress conditions, including increasing the fruit branch number, boll number, and boll‐setting rate and decreasing the boll abscission rate. In addition, survival and soluble sugar, proline and leaf relative water contents were increased in transgenic cotton plants after drought stress treatment. In contrast, RNAi knockdown of GhHUB2 genes reduced the drought resistance of transgenic cotton plants. AtHUB2 overexpression increased the global H2B monoubiquitination (H2Bub1) level through a direct interaction with GhH2B1 and up‐regulated the expression of drought‐related genes in transgenic cotton plants. Furthermore, we found a significant increase in H3K4me3 at the DREB locus in transgenic cotton, although no change in H3K4me3 was identified at the global level. These results demonstrated that AtHUB2 overexpression changed H2Bub1 and H3K4me3 levels at the GhDREB chromatin locus, leading the GhDREB gene to respond quickly to drought stress to improve transgenic cotton drought resistance, but had no influence on transgenic cotton development under normal growth conditions. Our findings also provide a useful route for breeding drought‐resistant transgenic plants.  相似文献   

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