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Genetic variation in LBL1 contributes to depth of leaf blades lobes between cotton subspecies, Gossypium barbadense and Gossypium hirsutum 被引量:3
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作者 HE Dao-fang ZHAO Xiang +5 位作者 LIANG Cheng-zhen ZHU Tao Muhammad Ali Abid CAI Yong-ping HE Jin-ling ZHANG Rui 《Journal of Integrative Agriculture》 SCIE CAS CSCD 2018年第11期2394-2404,共11页
Leaf is a essential part of the plants for photosynthetic activities which mainly economize the resources for boll heath. Significant variations of leaf shapes across the Gossypium sp. considerably influence the infil... Leaf is a essential part of the plants for photosynthetic activities which mainly economize the resources for boll heath. Significant variations of leaf shapes across the Gossypium sp. considerably influence the infiltration of sunlight for photosynthesis. To understand the genetic variants and molecular processes underlying for cotton leaf shape, we used F2 population derived from upland cotton genotype P30A (shallow-lobed leaf) and sea-island cotton genotype ISR (deep-lobed leaf) to map leaf deep lobed phenotype controlling genes LBL1 and LBL2. Genetic analysis and localization results have unmasked the position and interaction between both loci of LBL1 and LBL2, and revealed the co-dominance impact of the genes in regulating depth of leaf blades lobes in cotton. LBL1 had been described as a main gene and member of transcription factor family leucine zipper (HD-ZIPI) from a class I homologous domain factor Gorai.OO2G244000. The qRT-PCR results elaborated the continuous change in expression level of LBL1 at different growth stages and leaf parts of cotton. Higher expression level was observed in mature large leaves followed by medium and young leaves respectively. For further confirmation, plants were tested from hormonal induction treatments, which explained that LBL 1 expression was influenced by hormonal signaling. Moreover, the highest expression level was detected in brassinolides (BR) treatment as compared to other hormones, and this hormone plays an important role in the process of leaf blade lobed formation. 展开更多
关键词 leaf blades lobes HD-ZIPI LBL1 COTTON Gossypium barbadense Gossypium hirsutum
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Comparative Study on the Structural and Moisture Characteristics of Leaf from the Plantlets of Three Types of Ornamental Lilium brownii 被引量:12
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作者 唐蓉 龚维红 +1 位作者 史文秀 韦梅芹 《Agricultural Science & Technology》 CAS 2009年第2期93-96,共4页
[ Objective] The study was to compare the structural and moisture characteristics of leaf from the plantlets of three types of omamental lily( Lilium brownii). [ Method ] The paraffin sections of leaves of tested li... [ Objective] The study was to compare the structural and moisture characteristics of leaf from the plantlets of three types of omamental lily( Lilium brownii). [ Method ] The paraffin sections of leaves of tested lily varieties were prepared and then observed under microscope, and the stomatal characteristics and moisture characteristics of tested lily varieties were measured. I Resaltl All the three ornamental lily varieties show isobilateral leaf, single layer of epicuticula and lower epidermis, and no obvious differentiation of palisade tissue and spongy tissue; their stomata distribute in lower epidermis, and the guard cells are dumbbell-shaped; all of these matedais present high moisture. For the leaf sick- ness, midrib sickness and mesophyll tissue sickness, the order was determined to be oriental lily 〉 Lilium/ongiflorum 〉 Asian lily; of the three types of ornamental lily, Ulium Iongiflorum has the largest stomatai aperture and Asian lily has the smallest; focusing the water potential and moisture, the turn was Asian lily 〉 oriental lily 〉 Lilium Iong'fflorum. [ Condusion] The study may facilitate the artificial regulation of the growth conditions of the plantlets of ornamental lily. 展开更多
关键词 Ornamental lily leaf blade Moisture characteristics Test tubeseedling
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Effects of Water State of Soil on Ecological Boundary of Leaf Surface of Populus davidiana
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作者 王永胜 韩士杰 孙继武 《Journal of Forestry Research》 SCIE CAS CSCD 1998年第1期16-18,共3页
The effect of water state of soil on eco-boundary over leaf surface was disscussed by takingPopulus davidiana as experimental material. The results show that to change soil water state by some methods was to adjust an... The effect of water state of soil on eco-boundary over leaf surface was disscussed by takingPopulus davidiana as experimental material. The results show that to change soil water state by some methods was to adjust and control the forming quality of eco-boundary in fact. The plant in good water condition must be accompanied by thinner eco-boundary. This eco-boundary is beneficial to exchange and flow of the substances between plant and environment. 展开更多
关键词 Populus davidiana leaf blade Soil water Eco-boundary
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Effects of Salt Stress on Epidermal Cell Expansion in Leaves of Arabidopsis thaliana 被引量:6
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作者 侯蕾 陈龙俊 《Agricultural Science & Technology》 CAS 2011年第3期340-342,共3页
[Objective] The aim of this study was to investigate the effects of salt stress on cell expansion in Arabidopsis thaliana rosette leaves.[Method] Arabidopsis seedlings were treated by sodium chloride at the concentrat... [Objective] The aim of this study was to investigate the effects of salt stress on cell expansion in Arabidopsis thaliana rosette leaves.[Method] Arabidopsis seedlings were treated by sodium chloride at the concentration of 0,100 or 150 mmol/L. At the 7th and 14th d of treatment,with nail enamel printing mark method and computer software,the leaf blades area and abaxial epidermal pavement cells area was measured and compared using statistical analysis in Excel. [Result] The growth of Arabidopsis rosette leaves was inhibited under salt stress. Leaves treated for 7 or 14 d expanded less compared with controls. The salt-mediated decrease in leaf expansion is associated with a decrease in abaxial pavement cell expansion. [Conclusion] The decreased leaf and epidermal cell expansion under salt stress is the most important characteristic of plant physiological response to salt stress. 展开更多
关键词 Arabidopsis thaliana Salt treatment leaf blade area Epidermal cell area Nail enamel printing mark method
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