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991.
本文采用分层整群抽样的调查方法捺印1183名藏族青少年的掌指纹, 分析掌指纹参数,然后与其他56个群体的掌指纹参数进行聚类分析, 进而从肤纹学角度探讨藏族的起源。发现藏族指纹以斗型纹为主(52.89%), 其次为箕型纹(42.95%), 弓形纹出现频率最低(4.16%); 总指嵴线计数为139.01(其中男性为144.75, 女性为133.87); atd角在男性为42.95°, 女性为43.28°。掌指纹参数聚类分析显示: 藏族与汉族和氐羌氏族的后裔(门巴族、普米族、羌族等)等我国北方人群聚在一起。因而从肤纹学角度推断藏族与汉族和氐羌氏族的亲缘关系较近, 而与印度人和孟加拉人的亲缘关系较远。 相似文献
992.
Fu-Xing Gong Guoqin Zhan Rong Han Zhigang Yang Xin Fu Ran Xiao 《Nucleic acids research》2021,49(16):9342
Polypyrimidine tract-binding protein (PTB) is an RNA binding protein existing both as dimer and monomer and shuttling between nucleus and cytoplasm. However, the regulation of PTB dimerization and the relationship between their functions and subcellular localization are unknown. Here we find that PTB presents as dimer and monomer in nucleus and cytoplasm respectively, and a disulfide bond involving Cysteine 23 is critical for the dimerization of PTB. Additionally, protein disulfide isomerase (PDI) is identified to be the enzyme that catalyzes the de-dimerization of PTB, which is dependent on the CGHC active site of the a’ domain of PDI. Furthermore, upon DNA damage induced by topoisomerase inhibitors, PTB is demonstrated to be de-dimerized with cytoplasmic accumulation. Finally, cytoplasmic PTB is found to associate with the ribosome and enhances the translation of p53. Collectively, these findings uncover a previously unrecognized mechanism of PTB dimerization, and shed light on the de-dimerization of PTB functionally linking to cytoplasmic localization and translational regulation. 相似文献
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996.
Characterization and molecular mapping of stripe rust resistance gene Yr61 in winter wheat cultivar Pindong 34 总被引:1,自引:0,他引:1
X. L. Zhou D. J. Han X. M. Chen H. L. Gou S. J. Guo L. Rong Q. L. Wang L. L. Huang Z. S. Kang 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2014,127(11):2349-2358
Key message
We report a new stripe rust resistance gene on chromosome 7AS in wheat and molecular markers useful for transferring it to other wheat genotypes.Abstract
Several new races of the stripe rust pathogen have established throughout the wheat growing regions of China in recent years. These new races are virulent to most of the designated seedling resistance genes limiting the resistance sources. It is necessary to identify new genes for diversification and for pyramiding different resistance genes in order to achieve more durable resistance. We report here the identification of a new resistance gene, designated as Yr61, in Chinese wheat cultivar Pindong 34. A mapping population of 208 F2 plants and 128 derived F2:3 lines in a cross between Mingxian 169 and Pindong 34 was evaluated for seedling stripe rust response. A genetic map consisting of eight resistance gene analog polymorphism (RGAP), two sequence-tagged site (STS) and four simple sequence repeat (SSR) markers was constructed. Yr61 was located on the short arm of chromosome 7A and flanked by RGAP markers Xwgp5467 and Xwgp5765 about 1.9 and 3.9 cM in distance, which were successfully converted into STS markers STS5467 and STS5765b, respectively. The flanking STS markers could be used for marker-assisted selection of Yr61 in breeding programs. 相似文献997.
【目的】以丹参(Salvia miltiorrhiza Bge.)、菊花(Chrysanthemum morifolium Ramat.)、桔梗(Ptatycodongrandiflorum A.DC.)3种中药材的非药用部位作为灵芝袋料栽培的原料,研究灵芝子实体活性成分及药效变化。【方法】试验比较测定了非药用部位配方组与常规组(常规组作为实验对照组,配方由玉米芯、棉籽壳等常规基质组成)的灵芝农艺性状,子实体多糖和三萜含量,并对各组灵芝进行了小鼠急性毒性试验及药效试验。【结果】结果表明,非药用部位栽培灵芝生物转化率接近或者高于常规组,生长周期有所延长;活性成分上,除了丹参组(SM.G)的三萜含量有所降低外,其余各组的活性成分较常规配方组(OF.G)均有提高,菊花组(CM.G)灵芝的多糖和三萜含量最高,分别为2.47%和0.79%。最大耐受量试验表明,非药用部位栽培的灵芝子实体的小鼠最大耐受量均为100 g/kg。溶血素试验和促睡眠试验中菊花组效果优于常规组灵芝;抗疲劳上,只有常规组灵芝表现出一定的抗疲劳功效,而非药用部位栽培的灵芝没有该药效。【结论】中药材非药用部位栽培灵芝是可行的,且子实体活性成分含量和部分药效发生了改变。 相似文献
998.
Züchner S Dallman J Wen R Beecham G Naj A Farooq A Kohli MA Whitehead PL Hulme W Konidari I Edwards YJ Cai G Peter I Seo D Buxbaum JD Haines JL Blanton S Young J Alfonso E Vance JM Lam BL Peričak-Vance MA 《American journal of human genetics》2011,(2):581-206
Increasingly, mutations in genes causing Mendelian disease will be supported by individual and small families only; however, exome sequencing studies have thus far focused on syndromic phenotypes characterized by low locus heterogeneity. In contrast, retinitis pigmentosa (RP) is caused by >50 known genes, which still explain only half of the clinical cases. In a single, one-generation, nonsyndromic RP family, we have identified a gene, dehydrodolichol diphosphate synthase (DHDDS), demonstrating the power of combining whole-exome sequencing with rapid in vivo studies. DHDDS is a highly conserved essential enzyme for dolichol synthesis, permitting global N-linked glycosylation. Zebrafish studies showed virtually identical photoreceptor defects as observed with N-linked glycosylation-interfering mutations in the light-sensing protein rhodopsin. The identified Lys42Glu variant likely arose from an ancestral founder, because eight of the nine identified alleles in 27,174 control chromosomes were of confirmed Ashkenazi Jewish ethnicity. These findings demonstrate the power of exome sequencing linked to functional studies when faced with challenging study designs and, importantly, link RP to the pathways of N-linked glycosylation, which promise new avenues for therapeutic interventions. 相似文献
999.
Increasing evidence has demonstrated that EGCG possesses prooxidant potential in biological systems, including modifying proteins, breaking DNA strands and inducing the generation of reactive oxygen species. In the present study, the prooxidant effect of EGCG on erythrocyte membranes was investigated. SDS–PAGE and NBT-staining assay were utilized to detect the catechol-protein adducts that generated upon treating the membranes with EGCG. The results indicated that EGCG was able to bind covalently to sulfhydryl groups of membrane proteins, leading to the formation of protein aggregates with intermolecular cross-linking. We suggested that the catechol-quinone originated from the oxidation of EGCG acted as a cross-linker on which peptide chains were combined through thiol-S-alkylation at the C2- and C6-sites of the gallyl ring. EGC showed similar effects as EGCG on the ghost membranes, whereas ECG and EC did not, suggesting that a structure with a gallyl moiety is a prerequisite for a catechin to induce the aggregation of membrane proteins and to deplete membrane sulfhydryls. EDTA and ascorbic acid inhibited the EGCG-induced aggregation of membrane proteins by blocking the formation of catechol-quinone. The information of the present study may provide a fresh insight into the prooxidant effect and cytotoxicity of tea catechins. 相似文献
1000.
The earthworm enzyme Eisenia fetida Protease-III-1 (EfP-III-1) is known as a trypsin-like protease which is localized in the alimentary canal of the earthworm. Here, we show that EfP-III-1 also acts as a novel deoxyribonuclease. Unlike most DNases, this earthworm enzyme recognizes 5′-phosphate dsDNA (5′P DNA) and degrades it without sequence specificity, but does not recognize 5′OH DNA. As is the case for most DNases, Mg2+ was observed to markedly enhance the DNase activity of EfP-III-1. Whether the earthworm enzyme functioned as a DNase or as a protease depended on the pH values of the enzyme solution. The protein acted as a protease under alkaline conditions whereas it exhibited DNase activity under acid conditions. At pH 7.0, the enzyme could work as either a DNase or a protease. Given the complex living environment of the earthworm, this dual function of EfP-III-1 may play an important role in the alimentary digestion of the earthworm. 相似文献