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Namrata Dhaka Kadambini Rout Satish K. Yadava Yaspal Singh Sodhi Vibha Gupta Deepak Pental Akshay K. Pradhan 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2017,130(2):293-307
Key message
Seed weight QTL identified in different populations were synthesized into consensus QTL which were shown to harbor candidate genes by in silico mapping. Allelic variation inferred would be useful in breeding B. juncea lines with high seed weight.Abstract
Seed weight is an important yield influencing trait in oilseed Brassicas and is a multigenic trait. Among the oilseed Brassicas, Brassica juncea harbors the maximum phenotypic variation wherein thousand seed weight varies from around 2.0 g to more than 7.0 g. In this study, we have undertaken quantitative trait locus/quantitative trait loci (QTL) analysis of seed weight in B. juncea using four bi-parental doubled-haploid populations. These four populations were derived from six lines (three Indian and three east European lines) with parental phenotypic values for thousand seed weight ranging from 2.0 to 7.6 g in different environments. Multi-environment QTL analysis of the four populations identified a total of 65 QTL ranging from 10 to 25 in each population. Meta-analysis of these component QTL of the four populations identified six ‘consensus’ QTL (C-QTL) in A3, A7, A10 and B3 by merging 33 of the 65 component Tsw QTL from different bi-parental populations. Allelic diversity analysis of these six C-QTL showed that Indian lines, Pusajaikisan and Varuna, hold the most positive allele in all the six C-QTL. In silico mapping of candidate genes with the consensus QTL localized 11 genes known to influence seed weight in Arabidopsis thaliana and also showed conserved crucifer blocks harboring seed weight QTL between the A subgenomes of B. juncea and B. rapa. These findings pave the way for a better understanding of the genetics of seed weight in the oilseed crop B. juncea and reveal the scope available for improvement of seed weight through marker-assisted breeding.32.
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Ranjeet R. Kumar Suneha Goswami Mohammad Shamim Kavita Dubey Khushboo Singh Shweta Singh Yugal K. Kala Ravi R.K. Niraj Akshay Sakhrey Gyanendra P. Singh Monendra Grover Bhupinder Singh Gyanendra K. Rai Anil K. Rai Viswanathan Chinnusamy Shelly Praveen 《Functional & integrative genomics》2017,17(6):621-640
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Jill E. Chrencik Akshay Patny Iris K. Leung Brian Korniski Thomas L. Emmons Troii Hall Robin A. Weinberg Jennifer A. Gormley Jennifer M. Williams Jacqueline E. Day Jeffrey L. Hirsch James R. Kiefer Joseph W. Leone H. David Fischer Cynthia D. Sommers Horng-Chih Huang E.J. Jacobsen Ruth E. Tenbrink Alfredo G. Tomasselli Timothy E. Benson 《Journal of molecular biology》2010,400(3):413-8450
Janus kinases (JAKs) are critical regulators of cytokine pathways and attractive targets of therapeutic value in both inflammatory and myeloproliferative diseases. Although the crystal structures of active JAK1 and JAK2 kinase domains have been reported recently with the clinical compound CP-690550, the structures of both TYK2 and JAK3 with CP-690550 have remained outstanding. Here, we report the crystal structures of TYK2, a first in class structure, and JAK3 in complex with PAN-JAK inhibitors CP-690550 ((3R,4R)-3-[4-methyl-3-[N-methyl-N-(7H-pyrrolo[2,3-d]pyrimidin-4-yl)amino]piperidin-1-yl]-3-oxopropionitrile) and CMP-6 (tetracyclic pyridone 2-t-butyl-9-fluoro-3,6-dihydro-7H-benz[h]-imidaz[4,5-f]isoquinoline-7-one), both of which bind in the ATP-binding cavities of both JAK isozymes in orientations similar to that observed in crystal structures of JAK1 and JAK2. Additionally, a complete thermodynamic characterization of JAK/CP-690550 complex formation was completed by isothermal titration calorimetry, indicating the critical role of the nitrile group from the CP-690550 compound. Finally, computational analysis using WaterMap further highlights the critical positioning of the CP-690550 nitrile group in the displacement of an unfavorable water molecule beneath the glycine-rich loop. Taken together, the data emphasize the outstanding properties of the kinome-selective JAK inhibitor CP-690550, as well as the challenges in obtaining JAK isozyme-selective inhibitors due to the overall structural and sequence similarities between the TYK2, JAK1, JAK2 and JAK3 isozymes. Nevertheless, subtle amino acid variations of residues lining the ligand-binding cavity of the JAK enzymes, as well as the global positioning of the glycine-rich loop, might provide the initial clues to obtaining JAK-isozyme selective inhibitors. 相似文献
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Apoptosis is an organised ATP‐dependent programmed cell death that organisms have evolved to maintain homoeostatic cell numbers and eliminate unnecessary or unhealthy cells from the system. Dysregulation of apoptosis can have serious manifestations culminating into various diseases, especially cancer. Accurate control of apoptosis requires regulation of a wide range of growth enhancing as well as anti‐oncogenic factors. Appropriate regulation of magnitude and temporal expression of key proteins is vital to maintain functional apoptotic signalling. Controlled protein turnover is thus critical to the unhindered operation of the apoptotic machinery, disruption of which can have severe consequences, foremost being oncogenic transformation of cells. The ubiquitin proteasome system (UPS) is one such major cellular pathway that maintains homoeostatic protein levels. Recent studies have found interesting links between these two fundamental cellular processes, wherein UPS depending on the cue can either inhibit or promote apoptosis. A diverse range of E3 ligases are involved in regulating the turnover of key proteins of the apoptotic pathway. This review summarises an overview of key E3 ubiquitin ligases involved in the regulation of the fundamental proteins involved in apoptosis, linking UPS to apoptosis and attempts to emphasize the significance of this relationship in context of cancer. 相似文献
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利用高代回交和分子标记辅助选择建立水稻单片段代换系 总被引:34,自引:0,他引:34
以水稻品种华梗籼74为受体,以6个水稻品种为供体.通过高代回交和微卫星标记辅助选择相结合的方法,建立了水稻的一个单片段代换系群体。该群体Fh86个单片段代换系组成,其中52个在BC3F2中获得,34个在BC3F3中获得。每个单片段代换系只含有来自一个供体的一个染色体代换片段,而遗传背景与华粳籼74相同。这些单片段代换系的代换片段分布于水稻的12条染色体,代换片段的长度为1.5~56.3cM,平均长度为23.0cM。全部代换片段在水稻基因组上的覆盖率为57.1%。 相似文献