Response of the enzymes to nitrogen applications in cotton fiber (Gossypium hirsutum L.) and their relationships with fiber strength

To investigate the response of key enzymes to nitrogen (N) rates in cotton fiber and its relationship with fiber strength, experiments were conducted in 2005 and 2006 with cotton cultivars in Nanjing. Three N rates 0, 240 and 480 kgN/hm2, signifying optimum and excessive nitrogen application levels were applied.The activities and the gene expressions of the key enzymes were affected by N, and the characteristics of cellulose accumulation and fiber strength changed as the N rate varied. Beta-1,3-glucanase activity in cotton fiber declined from 9 DPA till boll opening, and the beta-1, 3-glucanase coding gene expression also followed a unimodal curve in 12—24 DPA. In 240 kgN/hm² condition, the characteristics of enzyme activity and gene expression manner for sucrose synthase and beta-1,3-glucanase in developing cotton fiber were more favorable for forming a longer and more steady cellulose accumulation process, and for high strength fiber development.     

Comparative Development of Lint and Fuzz Using Different Cotton Fiber-specific Developmental Mutants in Gossypium hirsutum

A series of fiber-specific mutants, or germplasms, have been recently used in the study of fiber development. In the current study, scanning electron microscopy （SEM） was used to investigate developmental differences in lint and fuzz initiation in different genotypes （Gossypium hirsutum） of upland cotton. These fiber mutants included dominant naked seed N1, recessive naked seed n2, Xuzhou-142 lintless-fuzzless （XZ142WX）, Xinxiangxiaojilintless-fuzzless （XinWX）, Xinxiangxiaojilinted-fuzzless （XinFLM）, with TM-1, the cytogenetic and genetic experimental standard stock, as the control. Characteristics of fiber initiation were analyzed from -1 to ＋1 days post anthesis （dpa） and at 4 and 5 dpa for fuzz initiation. Our data suggested that lint initiation centered on day of anthesis （0dpa）, and elongated significantly at 1dpa, while fuzz initiation began at 4dpa, although the shape of fuzz protrusions differed from that of lint fibers. Fiber initiation occurred first on the ovule funicular crest. Compared to TM-1, there was a noted retardation in development and fiber protrusion in N1 and XinFLM. Microscopy data also demonstrated that lintless-fuzzless mutants （XZ142WX and XinWX） developed irregular protrusions during early developmental stages, which were unable to grow into fiber.     

Comparative Development of Lint and Fuzz Using Different Cotton Fiber-specific Developmental Mutants in Gossypium hirsutum

A series of fiber-specific mutants, or germplasms, have been recently used in the study of fiber development. In thecurrent study, scanning electron microscopy (SEM) was used to investigate developmental differences in lint and fuzzinitiation in different genotypes (Gossypium hirsutum) of upland cotton.These fiber mutants included dominant nakedseed N1, recessive naked seed n2, Xuzhou-142 lintless-fuzzless (XZ142WX), Xinxiangxiaojilintless-fuzzless (XinWX),Xinxiangxiaojilinted-fuzzless (XinFLM), with TM-1, the cytogenetic and genetic experimental standard stock, as the control.Characteristics of fiber initiation were analyzed from -1 to 1 days post anthesis (dpa) and at 4 and 5 dpa for fuzz initiation.Our data suggested that lint initiation centered on day of anthesis (Odpa), and elongated significantly at 1dpa, while fuzzinitiation began at 4dpa, although the shape of fuzz protrusions differed from that of lint fibers. Fiber initiation occurred firston the ovule funicular crest. Compared to TM-1, there was a noted retardation in development and fiber protrusion in N1and XinFLM. Microscopy data also demonstrated that lintless-fuzzless mutants (XZ142WX and XinWX) developed irregularprotrusions during early developmental stages, which were unable to grow into fiber.     

Effects of ultraviolet-B radiation on cotton (Gossypium hirsutum L.) morphology and anatomy

Cotton (Gossypium hirsutum L.) crop, cultivated between 40 degrees N and 40 degrees S, is currently experiencing 2-11 kJ m-2 d-1 of UV-B radiation. This is predicted to increase in the near future. An experiment was conducted to study the effect of enhanced UV-B radiation on vegetative and reproductive morphology and leaf anatomy of cotton in sunlit, controlled environment chambers. From emergence to harvest, cotton plants were exposed to 0, 8 or 16 kJ m-2 d-1 of UV-B in a square wave approach for 8 h from 0800 to 1600 h. Changes in plant height, internode and branch length, mainstem node number, leaf area, length and area of petals and bracts, and anther number per flower were recorded. Epidermal cell and stomatal density, stomatal index, leaf thickness, and epidermal, palisade and mesophyll tissue thickness were also measured. Initial chlorotic symptoms on leaves turned into necrotic patches on continued exposure to enhanced UV-B. Exposure to high UV-B reduced both vegetative and reproductive parameters and resulted in a smaller canopy indicating sensitivity of cotton to UV-B radiation. Enhanced UV-B radiation increased epicuticular wax content on adaxial leaf surfaces, and stomatal index on both adaxial and abaxial leaf surfaces. Leaf thickness was reduced following exposure to UV-B owing to a decrease in thickness of both the palisade and mesophyll tissue, while the epidermal thickness remained unchanged. The vegetative parameters studied were affected only by high levels of UV-B (16 kJ m-2 d-1), whereas the reproductive parameters were reduced at both ambient (8 kJ m-2 d-1) and high UV-B levels. The study shows that cotton plants are sensitive to UV-B at both the whole plant and anatomical level.     

Changes in secondary metabolites and fiber quality of cotton (Gossypium hirsutum) seed under consecutive water stress and in silico analysis of cellulose synthase and xyloglucan endotransglucosylase

Global warming has led to severe drought conditions. The selection of plant varieties that can withstand drought and produce increased yields are of utmost importance. In the current study, secondary metabolites, seed trait and fiber characteristic of cottonseeds (Gossypium hirsutum) exposed to double and third water stress exposure was investigated. Total phenol and tannin content in W₁S₃₃ increased significantly after third water stress exposure. Accumulation of wax was enhanced in seeds of W₃S₃₃ and W₃S₃₄ that were subjected to third water stress. Fiber quality parameters decreased when cottonseeds were rainfed. High irrigation resulted in fragile and delicate fiber. Seeds grown under 66% FC irrigation saved water and produced seeds that had the potential of producing high quality fibers. In silico analysis was performed on cellulose synthase A (CesA) and xyloglucan endotransglycosylase (XET) enzymes present in Gossypium hirsutum. The intracellular locations of the CesA and XET1 enzymes are the plasma membrane and cell wall, respectively. Proline is conserved in the C-terminal of the CesA enzyme and plays an important role in enzyme functionality. This study provides a better understanding as to the mechanisms by which the plant can tolerate and combat water stress conditions as well as reduce water consumption. In order to grow cotton seeds with desirable morphometric characteristics and optimal fibers under water stress exposure and in dry areas, it is better to use seeds that are irrigated under optimal irrigation conditions, ie 66% FC.     

A genetic approach to in vitro regeneration of non-regenerating cotton (Gossypium hirsutum L.) cultivars

Selections were made among individual plants of Gossypium hirsutum cv `Coker 310' for high-frequency in vitro regeneration by somatic embryogenesis. After three generations of selection, a pure line for high-frequency somatic embryogenesis was selected and named Coker 310 FR (FR, fully regenerating). Coker 310 FR could be regenerated by following previously published protocols (see Materials and methods) and a modified protocol developed in this study that reduced the time necessary for in vitro regeneration. Coker 310 FR was crossed with individual plants of major cotton cultivars grown in India, namely `MCU 5', `MCU 7', `Khandwa 2', `Bikaneri Nerma', `F 846' that have been shown to be recalcitrant to in vitro regeneration, to evaluate the regeneration potential of F₁s. All the F₁s showed regeneration by somatic embryogenesis. However, the F₁ of G. barbadense×G. hirsutum Coker 310 FR did not regenerate. Received: 16 September 1997 / Revision received: 1 April 1998 / Accepted: 15 May 1998     

Nucleolar size at early stages of cotton fiber development in relation to final fiber dimension

Changes in nucleolar size and nucleolar vacuolation at early stages of fiber development and final fiber dimensions were determined for cotton of different species: Gossypium hirsutum L. cv. B49, Gossypium barbadense L. cv. Menoufi and Gossypium arboreum L. cv. Virnar. Size of the nucleolus in combination with its vacuolation at an early stage of development was found to be clearly associated with the final result of fiber development.     

Rapid in-vitro plant regeneration of cotton (Gossypium hirsutum L.)

A rapid, clonal propagation procedure has been developed to regenerate mature cotton (Gossypium hirsutum L.) plants from pre-existing meristems that were excised from in-vitro-grown tissues. This plant regeneration procedure was applicable to diverse cotton germplasms and required specific concentrations of 6-benzylaminopurine (BA) depending on the origin of the meristems. All shoots regenerated directly without a callus phase. Screening BA concentrations (0.0–10.0 μm) demonstrated that shoot meristems (apices), secondary leaf nodes, primary leaf nodes, and cotyledonary nodes derived from in-vitro-grown 28-day-old seedlings (Paymaster HS26) varied in their ability to form elongated shoots depending on the level of BA. Indicative of a germplasm-independent procedure, a BA concentration screen (0.0, 0.3, 1.0 μm) demonstrated that explants with pre-existing meristems, excised from diverse germlines, were also able to form elongated shoots at 0.3 μm BA. In most cases, elongated shoots derived from this procedure were rooted by a two-step process: an in-vitro maturation step (Murashige and Skoog medium-activated charcoal) followed by planting into soil after basal application of Rootone. This BA plant regeneration procedure was rapid, reproducible, and highly efficient for Stoneville 7A, Paymaster HS26, and other high-fiber-yielding germlines. Regenerated plants were phenotypically normal and all of the mature plants regenerated to date have initiated flowers and set viable R₁ seeds. Received: 15 March 1997 / Revision received: 28 August 1997 / Accepted: 5 September 1997     

Characterization of somatic embryogenesis and plant regeneration in cotton (Gossypium hirsutum L.)

Summary Seventeen cultivars of cotton (Gossypium hirsutum L.) were evaluated for callus initiation and maintenance using 3 initiation media and 3 maintenance media. After a series of transfers of a 3% glucose media, calli were placed on a 3% sucrose medium. After several weeks calli were observed for the presence of embryo-like structures. Cultivars Coker 201 and Coker 315 were identified as embryogenic. Embryogenic callus has since been routinely obtained within 6 weeks by initiating callus on glucose media for 3–4 weeks followed by transfer to sucrose media. Histological examination has shown that embryos are derived from isodiametric, densely cytoplasmic cells and follow predictable patterns of development. Upon maturity, transfer to auxin-free media with reduced sucrose levels results in embryo germination. Regenerated plants can be transferred to greenhouse within 90 days of callus initiation.The senior author is presently a Research Geneticist, USDA-ARS, and Assistant Professor Present address     

An RFLP linkage map of Upland cotton, Gossypium hirsutum L.

 Ninety-six F₂.F₃ bulked sampled plots of Upland cotton, Gossypium hirsutum L., from the cross of HS46×MARCABUCAG8US-1-88, were analyzed with 129 probe/enzyme combinations resulting in 138 RFLP loci. Of the 84 loci that segregated as co-dominant, 76 of these fit a normal 1 :  2 : 1 ratio (non-significant chi square at P=0.05). Of the 54 loci that segregated as dominant genotypes, 50 of these fit a normal 3: 1 ratio (non-significant chi square at P=0.05). These 138 loci were analyzed with the MAPMAKER∖ EXP program to determine linkage relationships among them. There were 120 loci arranged into 31 linkage groups. These covered 865 cM, or an estimated 18.6% of the cotton genome. The linkage groups ranged from two to ten loci each and ranged in size from 0.5 to 107 cM. Eighteen loci were not linked. Received: 31 March 1998 / Accepted: 29 April 1998     

Xyloglucan breakdown during cotton fiber development

Cotton (Gossypium herbaceum L.) fibers elongated almost linearly up to about 20 days post anthesis. The molecular mass of xyloglucans in fiber cell walls decreased gradually during the elongation stage. When enzymatically active (native) cell wall preparations of fibers were autolyzed, the molecular mass of xyloglucans decreased. The decrease was most prominent in wall preparations obtained from the rapidly elongating fibers. The xyloglucan-degrading activity was recovered from the fiber cell walls with 3 mol/L NaCl, and the activity was high at the stages in which fibers elongated vigorously. These results suggest the possible involvement of xyloglucan metabolism in the regulation of cotton fiber elongation.     

两个棉花Rac蛋白基因的克隆与表达分析

为研究棉花纤维起始和伸长的分子机理,在棉花纤维EST序列分析的基础上,从棉花纤维中扩增并克隆了2个棉花Rac蛋白的cDNA基因,分别命名为GhRacA和GhRacB。GhRacA cDNA长959bp,推测的编码蛋白包含211个氨基酸。GhRacB cDNA长920bp,编码195个氨基酸的蛋白。GhRacA和GhRacB蛋白均含有GTP／GDP结合和激活区域、Effector区和碱性氨基酸区。GhRacB的C末端有保守的异戊烯基化位点CSIL,而GhRacA没有明显的异戊烯基化位点。序列比较分析表明,GhRacA和GhRacB是2个新的棉花Rac蛋白。RT-PCR分析表明,GhRacA和GhRacB在根、下胚轴、茎、叶和纤维中都有表达,但均在棉花纤维起始和伸长时期有优势表达,推测2个基因在棉花纤维的早期发育中可能有重要的功能。     

棉花萌发期和苗期耐盐性评价及耐盐指标筛选

于2010年在江苏南京农业大学人工气候室内进行砂培试验,采用不同浓度的NaCl水溶液模拟盐胁迫,以多项指标盐害系数隶属函数值和总隶属函数值为依据,比较了13个棉花品种萌发期和苗期的耐盐性,并进行聚类分析.结果表明:150mmol·L-1NaCl是进行棉花耐盐性鉴定的适宜盐浓度.棉花的耐盐性在生育期和品种间表现不同:中棉所44和中棉所177是在萌发期和苗期均表现稳定的耐盐品种,表现稳定但不耐盐品种有中棉所102、苏棉12号和泗棉3号,表现稳定且中等耐盐品种有中棉所103、德夏棉1号和美棉33B;发芽率、发芽势、发芽指数、活力指数和鲜质量的盐害系数可以作为棉花萌发期耐盐鉴定指标,株高、叶片伸展速率、地上部干质量、根系干质量、根系活力和净光合速率的盐害系数可以作为棉花苗期耐盐鉴定指标.     

陆地棉抗病基因同源序列的克隆与分析

根据已知抗病基因NBS保守区的P-loop和GLPL区设计一对简并引物F1/R1,以7个抗黄萎病陆地棉品种和2个感黄萎病品种的基因组DNA为模板进行PCR扩增.在9个品种中均扩增出500 bp左右的条带.对目的条带进行回收,连接、转化克隆得到350个阳性克隆,进行测序.在8个棉花品种中克隆到74条具有完整开放读码框的棉花RGAs序列.这74条序列共有64种不同的基因型,有10条与其他品种中的RGAs序列相同.用MEGA软件对8个棉花品种的74条RGA序列以及12个已知的抗病基因的NBS区域进行聚类分析,可分为4类;4类RGAs之间的相似性较低,各类之内的RGAs虽然来自不同品种,氨基酸序列的相似度却非常高.推测各大类中相似性较高的序列分别属于同一个基因家族,从位点上说可能处于同一个基因簇.     

Increased nuclear DNA content in developing cotton fiber cells

The nuclear DNA content of developing cotton fiber cells (Gossypium hirsutum, cv. MD51ne) increases ∼24% after 2 d postanthesis (dpa). The amount of nuclear DNA at 2 dpa is 5.4 ± 0.27 pg. At 3–4 dpa it increases to 6.7 ± 0.24 pg and by 5 dpa it is 6.8 ± 0.70 pg. These values were obtained by nuclear fluorescence after staining with Hoechst 33258. Human oral squamous cell nuclei were used as a DNA standard. Nuclear DNA content increases in fibers growing on either fertilized or unfertilized ovules. The increase also is detectable in Feulgen stained nuclei using two-wavelength cytospectrophotometry. All measurements were made on isolated fiber cell nuclei using a newly developed method tailored to cotton fiber cells. The results imply that during the early stages of development fiber cell nuclei either selectively amplify certain sequences or enter S-phase replicating a portion of their genome.     

Analysis of cotton (Gossypium hirsutum) root proteomes during a compatible interaction with the black root rot fungus Thielaviopsis basicola

A proteomic approach was used to uncover the inducible molecular defense mechanism of cotton root occurring during the compatible interaction with Thielaviopsis basicola. Microscopic observation of cotton root inoculated with a suspension of conidia showed that this necrotrophic hemibiotroph fungus interacts with the plant and completes its life cycle in our experimental system. 2‐DE analysis of root extracts taken after 1, 3, 5, and 7 days postinoculation and cluster analysis of the protein expression levels showed four major profiles (constant, upregulated, one slightly downregulated, and one dramatically downregulated). Spots significantly (p<0.05) upregulated were analyzed by LC‐MS/MS and identified using MASCOT MS/MS ion search software and associated databases. These proteins included defense and stress related proteins, such as pathogenesis‐related proteins and proteins likely to be involved in the oxidative burst, sugar, and nitrogen metabolism as well as amino acid and isoprenoid synthesis. While many of the identified proteins are common components of the defense response of most plants, a proteasome subunit and a protein reported to be induced only in cotton root following Meloidogyne incognita infection were also identified.     

陆地棉XTH基因家族全基因组鉴定及在纤维发育过程的表达分析

本研究从陆地棉TM-1基因组中鉴定出72个XTH家族基因,编码木葡聚糖内转糖苷酶/水解酶(XTH,xyloglucan endotransglycosylase/hydrolase),分别命名为Gh XTH01~Gh XTH72,分析了其基因结构、保守基序、系统进化、理化性质、亚细胞定位,并探究其在棉纤维发育不同时期的表达规律。结果表明,XTH家族基因分布在除At 07、Dt 07以外的24条棉花染色体上,根据系统发育树,将XTH家族基因分为3个亚组;XTH氨基酸序列有3个保守基序,保守性较强;多数XTH蛋白定位在细胞外。根据XTHs在纤维发育不同时期的表达量变化,将其分为4类。通过构建陆地棉与拟南芥XTH氨基酸序列进化树,推测Gh XTH15、Gh XTH28、Gh XTH36、Gh XTH49、Gh XTH59、Gh XTH62、Gh XTH63等基因在棉纤维发育过程中发挥重要作用。通过比较XTH家族基因在不同纤维品质陆地棉品种中的表达差异,推测在优质棉花品种中优势表达基因Gh XTH03、Gh XTH12、Gh XTH17、Gh XTH22、Gh XTH23、Gh XTH28、Gh XTH33、Gh XTH44、Gh XTH46、Gh XTH59等在纤维发育伸长过程中可能发挥着重要作用。上述结果为研究陆地棉XTH基因家族在棉纤维发育中的功能提供了参考依据。     

棉花花芽分化时期茎尖内源激素的变化

实验结果表明,从子叶展平后到肉眼可花芽（现蕾）,所测几种激素（ABA、IAA、GA3、iPA、ZR）的含量均表现出明显的动态变化,而且在花芽分化临界期表现出最显著的变化（出现高峰或出现低峰）。推测所测几种激素均与花芽分化有密切关系。其中ABA、GA3和CTK（iPA、ZR）在花芽分化临界期时,其含量变化均呈现出一个高峰;而IAA则在花芽分化临界期时出现一个低峰。经比较分析得知,随着花芽分化的进行,ABA/IAA、GA3／IAA、CTK／IAA均表现一个较明显的变化规律。即从子叶展平时起,其比值开始上升,到花芽开始分化时达到一个峰值,之后逐渐下降,并维持在一个较稳定的水平。显然,ABA／IAA、GA3／IAA、CTK／IAA在棉花的花芽分化过程中起着重要的调控作用。由此推测,增加植物体内的ABA、GA3、CTK的含量或降低IAA的含量,都可以促进棉花的花芽分化;反之则抑制棉花的花芽分化。