转FBP7::iaaM基因陆地棉种质冀资139纤维品质性状杂种优势分析

提高棉花(Gossypium hirsutum)产量兼顾改良纤维品质是棉花育种的重要目标,而优良种质创新是品种改良的基础。FBP7::iaaM基因能够调控棉花胚珠表皮细胞IAA的含量,进而促进棉纤维发育的起始。利用含有FBP7::iaaM基因的种质IF1-1,通过常规杂交育种手段实现了目的基因向骨干亲本的转移,培育了优...     

内源吲哚乙酸、脱落酸和赤霉酸与棉铃发育及脱落的关系

气相色谱分析的结果表明,开花后5～6天,不受精即将脱落棉铃里IAA和ABA的含量显著高于对照;GA_3处理的铃中IAA和ABA的含量则明显低于对照。IAA和GA_3含量在开花后第10天达到高峰,以后迅速下降,至第30天。又出现第二峰胚珠和纤维里尤为明显。ABA含量在开花后第15天达得高峰,以后下降,到第30天,又逐渐上升。棉纤维伸长及干重增加的最快速率与这三种激素的含量高峰密切相关。     

转基因抗虫棉的产量、品质及抗虫性比较研究

对36个转基因抗虫棉品种(品系)进行试验,比较了它们的产量、抗棉铃虫和红铃虫特性以及纤维品质之间的差异,并进行综合评价。在不打药的情况下,筛选出252等13份皮棉产量比鄂抗9号显著提高、抗棉铃虫和红铃虫的种质材料,其纤维品质综合性状表现一般。     

Developing Fiber Specific Promoter-Reporter Transgenic Lines to Study the Effect of Abiotic Stresses on Fiber Development in Cotton

Cotton is one of the most important cash crops in US agricultural industry. Environmental stresses, such as drought, high temperature and combination of both, not only reduce the overall growth of cotton plants, but also greatly decrease cotton lint yield and fiber quality. The impact of environmental stresses on fiber development is poorly understood due to technical difficulties associated with the study of developing fiber tissues and lack of genetic materials to study fiber development. To address this important question and provide the need for scientific community, we have generated transgenic cotton lines harboring cotton fiber specific promoter (CFSP)-reporter constructs from six cotton fiber specific genes (Expansin, E6, Rac13, CelA1, LTP, and Fb late), representing genes that are expressed at different stages of fiber development. Individual CFSP::GUS or CFSP::GFP construct was introduced into Coker 312 via Agrobacterium mediated transformation. Transgenic cotton lines were evaluated phenotypically and screened for the presence of selectable marker, reporter gene expression, and insertion numbers. Quantitative analysis showed that the patterns of GUS reporter gene activity during fiber development in transgenic cotton lines were similar to those of the native genes. Greenhouse drought and heat stress study showed a correlation between the decrease in promoter activities and decrease in fiber length, increase in micronaire and changes in other fiber quality traits in transgenic lines grown under stressed condition. These newly developed materials provide new molecular tools for studying the effects of abiotic stresses on fiber development and may be used in study of cotton fiber development genes and eventually in the genetic manipulation of fiber quality.     

Correlation between chiasma frequency and quantitative traits in upland cotton (Gossypium hirsutum L.)

Summary Four locally adapted and high yielding cultivars of upland cotton were examined in order to elucidate the relationship between total chiasma frequency and quantitative traits, including yield and fiber properties. Total chiasma frequency per nucleus was found to correlate positively with boll number (r = 0.4041), seed cotton yield (r = 0.6003), seed index (r = 0.4624), lint yield (r = 0.7325), and lint index (r = 0.9534). The data are discussed from the point of view that the heterozygosity caused by increased chiasma frequency in inbreeding cotton cultivars is an important compensating mechanism for enhancing effective recombination and genetic variability.     

播期对内蒙古西部荒漠区棉花产量、品质及养分吸收利用的影响

于2014—2015年在内蒙古自治区阿拉善盟阿拉善左旗内蒙古棉花综合实验站设置大田试验,以‘中棉所50’为材料,采用“一膜三管六行”机采棉配套栽培技术种植,研究播期(4月20日、4月30日和5月10日)对棉花产量、品质及养分吸收的影响.结果表明: 随着播期推迟,棉花生育时期推迟,生育期缩短,铃期日均温降低,收获密度增加;播期显著影响棉株干物质累积、养分吸收与分配,以及产量和品质形成,4月30日播种条件下,棉株干物质和养分在经济器官中的分配比例、养分总积累量及养分的皮棉生产效率较高,籽棉和皮棉产量最高,达6505.9和2660.9 kg·hm^-2,且纤维品质较优;4月20日播期下,收获密度、生物量和养分累积量最低,虽然生物量和养分经济系数最高,但最终籽棉和皮棉产量仍较4月30日播期降低10.9%～14.0%和11.1%～14.2%;5月10日播期,虽然可以避开种子萌发期低温冷害,但棉铃发育期日均温偏低,尽管生物量和养分累积量最高,但是生物量和养分经济系数、养分的皮棉生产效率最低,最终籽棉和皮棉产量较4月30日播期降低32.5%～34.7%和35.9%～36.2%,且纤维品质最差.综合分析, 4月30日左右为内蒙古西部荒漠旱区棉花种植的最佳播期.     

Boosting Seed Development as a New Strategy to Increase Cotton Fiber Yield and Quality

Cotton (Gossypium spp.) is the most important textile crop worldwide due to its cellulosic mature fibers, which are single-celled hairs initiated from the cotton ovule epidermis at anthesis. Research to improve cotton fiber yield and quality in recent years has been largely focused on identifying genes regulating fiber cell initiation, elongation and cellulose synthesis. However, manipulating some of those candidate genes has yielded no effect or only a marginally positive effect on fiber yield or quality. On the other hand, evolutionary comparison and transgenic studies have clearly shown that cotton fiber growth is intimately controlled by seed development. Therefore, I propose that enhancing seed development could be a more effective and achievable strategy to increase fiber yield and quality.     

Plant density influences fiber sucrose metabolism in relation to cotton fiber quality

Planting density plays an important role in improving cotton yield and regulating fiber quality. A 2-year experiment was conducted to investigate the effects of plant density on sucrose metabolism in relation to fiber quality of field-grown cotton. The results showed that lint yield increased with increasing plant density, fiber micronaire, fiber maturity ratio, and fiber fineness decreased with the increasing of plant density, whereas fiber length, fiber uniformity index, fiber strength, and fiber elongation were little affected by plant density. Increased plant density decreased sucrose synthase (SuSy) activity, sucrose content, and cellulose content in cotton fiber, but increased invertase activity. Increased invertase activity would restrain SuSy activity in cotton fiber: therefore, SuSy activity was the most severely affected enzyme in fiber sucrose metabolism by cotton plant density during fiber development. Abundant sucrose content in fiber after 24 days post anthesis (DPA) and high activities of SuSy and sucrose phosphate synthase (SPS) at 38 DPA were beneficial for cellulose synthesis, and were propitious to optimize the fiber maturity properties. The results also showed that fiber micronaire, maturity ratio, and fineness decreased 0.11, 0.02, and 5.89 mtex, respectively, with each increase of 10,000 plants per hectare. It was concluded that high plant density decreased SuSy activity, sucrose content, and cellulose content, but increased invertase activity in sucrose metabolism, resulting in low fiber micronaire, fiber maturity ratio, and fiber fineness.     

胞质雄性不育系冀2658A细胞质对陆地棉主要性状的影响

利用棉花(Gossypium hirsutum)雄性不育不仅可以培育优质的杂交种,还能提高棉花制种效率并降低制种成本。该研究以冀2658系及其同核异质不育系冀2658A为母本,以6个恢复系为父本配制12个杂交组合。利用F1代研究棉花细胞质对棉花农艺性状、抗病性、种子中粗脂肪和粗蛋白含量、纤维品质及产量性状的影响。结果表明,冀2658A的细胞质主要影响棉花杂交种F1代的产量相关性状、黄萎病抗性及棉籽粗脂肪含量等,表现为衣分显著降低(比对照组低1.61%),黄萎病抗性增强(黄萎病指数比对照组低18.29%),棉籽中的粗脂肪含量降低(比对照组低2.88%)。该研究初步探讨了胞质不育型细胞质对陆地棉主要性状的影响,为陆地棉胞质雄性不育系的利用提供了理论参考。     

Trichome expression of iaaM transgene influences their development and elongation in tobacco

The iaaM gene encodes a monooxygenase, an enzyme that can catalyze the synthesis of IAA from tryptophan and is functional in plants. We cloned the iaaM into the T-DNA region of a Ti binary vector pWM101 under the control of the cotton fiber specific E6 promoter, and the recombinant was transformed into Nicotiana tabacum WS38 via leaf disc infection with Agrobacterium tumefaciencs GV3101 that harbored the Ti plasmid. Some 25 transformed seedlings were screened out, and the trichomes of the transgenic leaves were both denser and lengthier. The E6 promoter-specific expression of iaaM in trichomes led to the more active auxin synthesis in the cells and allowed the transgenic leaves to develop tidier and longer trichomes. As more trichomes developed on the transgenic leaves, the leaf epidermis appeared fuzzier than the wild control. The research showed that iaaM expression in trichomes influenced the development of trichomes both during their initiation and elongation.     

Mapping quantitative trait loci for lint yield and fiber quality across environments in a Gossypium hirsutum × Gossypium barbadense backcross inbred line population

Identification of stable quantitative trait loci (QTLs) across different environments and mapping populations is a prerequisite for marker-assisted selection (MAS) for cotton yield and fiber quality. To construct a genetic linkage map and to identify QTLs for fiber quality and yield traits, a backcross inbred line (BIL) population of 146 lines was developed from a cross between Upland cotton (Gossypium hirsutum) and Egyptian cotton (Gossypium barbadense) through two generations of backcrossing using Upland cotton as the recurrent parent followed by four generations of self pollination. The BIL population together with its two parents was tested in five environments representing three major cotton production regions in China. The genetic map spanned a total genetic distance of 2,895 cM and contained 392 polymorphic SSR loci with an average genetic distance of 7.4 cM per marker. A total of 67 QTLs including 28 for fiber quality and 39 for yield and its components were detected on 23 chromosomes, each of which explained 6.65–25.27 % of the phenotypic variation. Twenty-nine QTLs were located on the At subgenome originated from a cultivated diploid cotton, while 38 were on the Dt subgenome from an ancestor that does not produce spinnable fibers. Of the eight common QTLs (12 %) detected in more than two environments, two were for fiber quality traits including one for fiber strength and one for uniformity, and six for yield and its components including three for lint yield, one for seedcotton yield, one for lint percentage and one for boll weight. QTL clusters for the same traits or different traits were also identified. This research represents one of the first reports using a permanent advanced backcross inbred population of an interspecific hybrid population to identify QTLs for fiber quality and yield traits in cotton across diverse environments. It provides useful information for transferring desirable genes from G. barbadense to G. hirsutum using MAS.     

施氮方式对转基因棉花Bt蛋白含量及产量的影响

为研究氮肥运筹对棉花叶片、棉蕾和棉铃不同器官中Bt蛋白含量的影响,2009—2010年,以抗虫杂交棉中棉所72为试验材料,在大田条件下进行了不同基肥：花铃肥：盖顶肥施氮比例（分别为0:0.4:0.6、0.2:0.4:0.4、0.4:0.4:0.2、0.6:0.4:0）的试验。结果表明,施氮方式对棉花不同器官中Bt蛋白含量有明显影响。总体表现为随着氮肥前移,棉花幼嫩器官中Bt蛋白含量呈明显增加的趋势,而老熟器官中Bt蛋白含量呈明显降低的趋势。施氮方式对棉花幼嫩器官中Bt蛋白含量的影响比老熟器官明显,尤其是对幼嫩叶片Bt蛋白含量的影响大于幼小的棉蕾和棉铃器官。抗虫棉采用基肥：花铃肥：盖顶肥为0.4:0.4:0.2的施氮方式,总体能提高前中期棉花器官Bt蛋白的含量,有利于提高其抗虫性能;减少后期棉花器官Bt蛋白的含量,减轻对环境的压力;而且比其余3种施氮方式的籽棉产量和皮棉产量分别增加4.15%—11.24％、3.73%—12.01%。     

Tiller formation in rice is altered by overexpression of OsIAGLU gene encoding an IAA-conjugating enzyme or exogenous treatment of free IAA

Optimization of plant architecture is important for cultivation and yield of cereal crops in the field. Tillering is an essential factor used to determine the overall architecture of cereal crops. It has long been recognized that the development of branching patterns is controlled by the level and distribution of auxin within a plant. To better understand the relationship between auxin levels and tillering in rice, we examined rice plants with increased or decreased levels of free IAA. To decrease IAA levels, we selected the rice IAA-glucose synthase gene (OsIAGLU) from the rice genome database based on high sequence homology with IAA-glucose synthase from maize (ZmIAGLU), which is known to generate IAAglucose conjugate from free IAA. The OsIAGLU gene driven by the Cauliflower Mosaic Virus 35S promoter was transformed into a rice cultivar to generate transgenic rice plants constitutively over-expressing this gene. The number of tillers and panicles significantly increased in the transgenic lines compared to the wild-type plants, while plant height and panicle length decreased. These results indicate that decreased levels of free IAA likely enhance tiller formation in rice. To increase levels of free IAA, we treated rice plants with three different concentrations of exogenous IAA (1 μM, 10 μM and 100 μM) twice a week by spraying. Exogenous IAA treatment at concentrations of 10 μM and 100 μM significantly reduced tiller number in three different rice cultivars. These results indicate that exogenously applied IAA inhibits shoot branching in rice. Overall, auxin tightly controls tiller formation in rice in a negative way.     

Quantifying Potential Tolerance of Selected Cotton Cultivars to Belonolaimus longicaudatus

Glyphosate-tolerant cotton cultivars were evaluated for tolerance to Belonolaimus longicaudatus in field experiments conducted from 2004 to 2005. Field trials were arranged in a split-plot design that included treatment with four levels of 1, 3-dichloropropene (0.0, 13.9, 27.8, and 41.7 1 a.i./ha) to establish a range of population densities of B. longicaudatus. Six cotton cultivars (early-to-mid maturity: DP444BG/RR SG501BR, ST5242BR; mid-to late maturity: DP451B/RR, ST5599BR, DP655BRR) were planted as whole plots. Fumigation was effective in suppressing B. longicaudatus population densities at mid-season, but not at cotton harvest, and increased cotton lint yield. The cultivar × fumigation interaction for cotton lint yield was not significant for the six cultivars evaluated, indicating that tolerance did not occur in this nematode-host combination. Early-to-mid maturity cultivars yielded significantly more than mid-to-late maturity cultivars in both years. Small but significant differences in nematode final population density were observed between cultivars that may be related to relative maturity.     

Effect of Simultaneous Water Deficit Stress and Meloidogyne incognita Infection on Cotton Yield and Fiber Quality

Both water deficit stress and Meloidogyne incognita infection can reduce cotton growth and yield, and drought can affect fiber quality, but the effect of nematodes on fiber quality is not well documented. To determine whether nematode parasitism affects fiber quality and whether the combined effects of nematode and drought stress on yield and quality are additive (independent effects), synergistic, or antagonistic, we conducted a study for 7 yr in a field infested with M. incognita. A split-plot design was used with the main plot factor as one of three irrigation treatments (low [nonirrigated], moderate irrigation, and high irrigation [water-replete]) and the subplot factor as 0 or 56 l/ha 1,3-dichloropropene. We prevented water deficit stress in plots designated as water-replete by supplementing rainfall with irrigation. Plots receiving moderate irrigation received half the water applied to the water-replete treatment. The severity of root galling was greater in nonfumigated plots and in plots receiving the least irrigation, but the amount of irrigation did not influence the effect of fumigation on root galling (no irrigation × fumigation interaction). The weights of lint and seed harvested were reduced in nonfumigated plots and also decreased as the level of irrigation decreased, but fumigation did not influence the effect of irrigation. Nematodes affected fiber quality by increasing micronaire readings but typically had little or no effect on percent lint, fiber length (measured by HVI), uniformity, strength, elongation, length (based on weight or number measured by AFIS), upper quartile length, or short fiber content (based on weight or number). Micronaire also was increased by water deficit stress, but the effects from nematodes and water stress were independent. We conclude that the detrimental effects caused to cotton yield and quality by nematode parasitism and water deficit stress are independent and therefore additive.