Gene expression profiling during gland morphogenesis of a mutant and a glandless upland cotton

To identify genes involved in pigment gland morphogenesis in cotton, gene expression was profiled using genechip (Affymetrix) during pigment gland morphogenesis in cotton variety Xiangmian-18, which has glandless seeds but glanded plants, and a glandless line, N5. The results showed that 303 genes were differentially expressed by a factor greater than two during gland morphogenesis; 59% (180) of these genes shared similarity with known genes in GenBank. These genes play roles in defense response, response to oxidative stress, peroxidase activity, and other metabolic pathways. KOBAS (KEGG Orthology-Based Annotation System) indicate that these genes are involved in 68 biochemical pathways. These findings suggest that the related defense response, gossypol biosynthesis pathway and other complex regulation may be associated with pigment gland morphogenesis in cotton. The results may provide a basis for further study and serve as a guide for related research.     

Specificity of constitutive and induced resistance: pigment glands influence mites and caterpillars on cotton plants

Cotton plants contain suites of phytochemicals thought to be important in defense against herbivores, some of which are localized in pigment glands which contain gossypol and other terpenoid aldehydes. The simple genetic basis for the expression of these glands has led to the development of near-isogenic glanded and glandless genotypes. Glands may also be phenotypically induced by herbivory. We determined the consequences of constitutive and induced gland expression on two types of herbivores, spider mites (cell content feeders) and noctuid caterpillars (leaf chewers).Induction of glands was strongly dependent on the density of attackers. Spider mite herbivory on cotyledons (1) increased the density (but not total number) of glands on cotyledons linearly, (2) increased the density and total number of glands on the first true leaf linearly, and (3) affected the density and total number of glands on the second true leaf non-linearly, compared to controls. Neither constitutive nor induced expression of glands affected mite population growth. An equal reduction of mite population size on induced glanded and glandless plants (50%) relative to uninduced controls indicated that factors other than glands were associated with induced resistance to mites. Constitutive gland expression had a strong negative impact on caterpillar performance, reducing growth by 45%. Induced resistance to caterpillars was three times stronger in glanded genotypes than in glandless genotypes, indicating that factors associated with induced resistance to caterpillars are strongly associated with glands. Three cotton varieties were highly variable in their constitutive and induced resistance to mites and caterpillars.Thus, defense of cotton plants against herbivores can be roughly categorized as constitutive and inducible factors associated with terpenoid aldehyde containing pigment glands that are effective against caterpillars, and factors not associated with glands that are effective against mites.     

EFFECTS OF GOSSYPOL ON GROWTH OF THE COTTON BOLLWORM AND DEVELOPMENT OF ITS PARASITOID CAMPOLETIS CHLORIDEAE*

Abstract The effects of gossypol, an important allelochemical in cotton, on growth of the cotton bollworm Helicoverpa armigera (Hubner) and development of its endoparasitoid Campoletis chlorideae (Uchida) in Huanghe River Valley were studied. Growth of H. armigera larvae was accelerated by adding 0.1% gossypol in the artificial diet, causing 10.75% reduction of the vulnerable period to C. chlorideae while the suppression activity of 0. 5 % gossypol to H. armigera larvae prolonged the vulnerable period by 28.15%. Negative effects of gossypol on the development of the parasitoid were demonstrated by using the artificial diet and cotton varieties WD-151 (glandless) and HG-BR-8 (glanded). Gossypol at 0.1% concentration in artificial diet did not remarkably increase the body weight of adult wasp, but significantly extended the egg-larval time and shortened the pupal time; 0. 5% gossypol and HG-BR-8 remarkably reduced the body weight of adult wasp, also significantly prolonged the egg-larval period and decreased the pupal period. Finally, the coordinate application of high gossypol resistant cotton varieties and C. chlorideae in H. armigera control is discussed.     

An optimized gossypol high-performance liquid chromatography assay and its application in evaluation of different gland genotypes of cotton

A comparative study on gossypol content of various genetic types of pigment glands of cotton varieties was conducted through an optimized high-performance liquid chromatography (HPLC) on a C18 column (4.6 mm x 250 mm, 5 Μm particle) with methanol-0.5% acetic acid aqueous solution, 90 : 10 (v/v), as mobile phase, at a flow rate of 0.8 ml/min and UV detection at 254 nm. The method was shown to be highly reproducible, with precision [as relative standard deviation (RSD)] and accuracy [as relative mean error (RME)] < 10%, both intra-day and inter-day. Absolute recoveries were > 94%. The results revealed major differences among the different gland varieties or species of cotton, including the special and ordinary glandless and glandedGossypium hirsutum, G. barbadense, and displayed the precious resources of different glands of extraordinary cotton     

棉酚对棉铃虫生长及其寄生物齿唇姬蜂发育的影响(英文)

以中国北方棉区的主要害虫棉铃虫Helicoverpaarmigera（Hbner）及其内寄生蜂棉铃虫齿唇姬蜂Campoletischlorideae（Uchida）为试虫,研究了棉花重要抗虫次生性物质棉酚对棉铃虫生长和齿唇姬蜂发育的影响。0．1％的棉酚对棉铃虫幼虫有生长刺激作用,0．5％的棉酚则对棉铃虫幼虫生长有抑制作用。齿唇姬蜂成虫在寄生时对寄主大小有较严格的选择性,92％的被寄生幼虫体重小于18mg。0．1％的棉酚使寄主适合寄生期缩短10．75％;0．5％棉酚使寄主适合寄生期延长28．15％。棉酚对齿唇姬蜂发育有负效应。0．1％棉酚对寄主的生长刺激作用,不能使蜂成虫体重显著增加,但可显著延长蜂卵和幼虫期,缩短蛹期;高浓度的生长抑制作用,导致蜂成虫体重显著减轻,蛹期缩短,蜂卵和幼虫期亦显著延长。据此,对棉花抗虫性与生物防治在害虫综合防治实践中应用的协调性进行了讨论。     

Oxidative and phosphorylative activities of mitochondria isolated from cotton hypocotyls

Mitochondria isolated from 2 strains of cotton plant hypocotyls (Gossypium hirsutum L. var. Rex smooth leaf and Rex glandless) were examined for their oxidative phosphorylation activities. Bovine serum albumin at a relatively high concentration was essential in the extraction medium for the isolation of oxidatively active mitochondria from both strains of cotton. Phosphorylation was obtained only with Rex glandless cotton mitochondria. This activity was low in comparison to the mitochondria isolated from soybeans (Glycine max L. var. Lee). The endogenous gossypol content was found to be much higher in the Rex smooth leaf tissue than in the Rex glandless tissue. In turn, comparable gossypol differences were found associated with their respective mitochondrial fractions. Exogenous gossypol uncoupled succinate oxidation with active mitochondria isolated from soybeans. Gossypol as a possible uncoupler is discussed and compared to carbonyl cyanide, m-chlorophenyl hydrazone and 2,4-dinitrophenol.     

Terpenoid aldehyde formation and lysigenous gland storage sites in cotton: variant with mature glands but suppressed levels of terpenoid aldehydes

A new cotton variant with reduced levels of terpenoid aldehydes (sesquiterpenoids and sesterterpenoids (heliocides)) was isolated from the progeny of hemizygous cotton (Gossypium hirsutum cv. Coker 312) transformed with antisense (+)-delta-cadinene synthase cDNA. Southern analysis of leaf DNA digested with HindIII, Pst or KpnI restriction endonucleases did not detect any antisense cdn1-C1 DNA in the genome of the variant. The gossypol content in the seed of the variant was markedly lower than in the seed of T1 antisense plants. Eighty-nine percent of the variant seed had a 71.1% reduction in gossypol and the foliage of the variant plants showed a 70% reduction in gossypol and a 31% reduction in heliocides. Compared to non-transformed plants there was no reduction in the number of lysigenous glands in the seed of the variant. The cotton variant shows uncoupling of terpenoid aldehyde synthesis and gland formation. The cotton variant may have resulted from somaclonal variation occurring in the callus tissue during the transformation-regeneration process.     

Cover Caption

Previous studies have confirmed HaCad (cadherin), HaABCC2 and HaABCC3 are functional receptors of Bt toxin Cry1Ac in cotton bollworm, Helicoverpa armigera. Aminopeptidase N1 (APN1) has been suggested as a putative receptor in several lepidopteran insects including H. armigera through evidence from RNAi‐based gene silencing approaches. In the current study, we tested the role of APNs in the mode of action of Bt toxins using CRISPR/Cas9‐mediated gene knockout. Three APN genes (HaAPN1, HaAPN2 and HaAPN5) were individually knocked out in a susceptible SCD strain of H. armigera to establish three homozygous knockout strains. Bioassay results showed that none of the three knockouts had significant changes in susceptibility to Cry1A or Cry2A toxins when compared with the SCD strain. This suggests that the three HaAPN genes we tested may not be critical in the mode of action of Cry1A or Cry2A toxins in H. armigera (see pages 440–448). Photo by Yi‐Dong Wu.     

Chemical Composition of Defatted Cottonseed and Soy Meal Products

Chemical composition is critical information for product quality and exploration of new use. Hence defatted cottonseed meals from both glanded (with gossypol) and glandless (without gossypol) cotton seeds were separated into water soluble and insoluble fractions, or water soluble, alkali soluble as well as total protein isolates. The contents of gossypol, total protein and amino acids, fiber and carbohydrates, and selected macro and trace elements in these products were determined and compared with each other and with those of soy meal products. Data reported in this work improved our understanding on the chemical composition of different cottonseed meal products that is helpful for more economical utilization of these products. These data would also provide a basic reference for product standards and quality control when the production of the cottonseed meal products comes to pilot and industrial scales.     

Cadmium-Induced Structure Change of Pigment Glands and the Reduction of the Gossypol Content in Cottonseed Kernels

The risk of cotton production on arable land contaminated with heavy metals has increased in recent years. Cotton shows stronger and more extensive resistance to heavy metals, such as cadmium (Cd) than that of other major crops. Here, a potted plant experiment was performed to study Cd-induced alterations in the cottonseed kernel gossypol content and pigment gland structure at maturity in two transgenic cotton cultivars (ZD-90 and SGK3) and an upland cotton standard genotype (TM-1). The results showed that Cd accumulation in cottonseed kernels increased with increasing Cd levels in the soil. The seed kernel Cd content in plants grown on Cd-treated soils was 10-20 times greater than the amount in the corresponding controls. There was a significant difference in Cd accumulation in cottonseed kernels at the 400 and 600 μM Cd levels. Cd accumulation was higher in SGK3 and ZD-90 than in TM-1. However, the gossypol content in cottonseed kernels was lower in SGK3 and ZD-90 than in TM-1. There was a negative correlation (r = 0.550) between Cd accumulation and the gossypol content in cottonseed kernels. The density of cottonseed kernel pigment glands decreased under Cd stress. This is consistent with the change in gossypol content, which decreased under Cd stress. The damage of the cultivars ZD-90 and SGK3 from Cd poisoning was relatively low under Cd stress, while TM-1 was seriously affected and exhibited Cd sensitivity. Further studies are necessary to understand the cause of the reduced gossypol content in cotton seeds under Cd stress.