首页 | 本学科首页   官方微博 | 高级检索  
文章检索
  按 检索   检索词:      
出版年份:   被引次数:   他引次数: 提示:输入*表示无穷大
  收费全文   68篇
  免费   0篇
  2021年   1篇
  2018年   1篇
  2017年   1篇
  2016年   3篇
  2015年   1篇
  2013年   3篇
  2012年   3篇
  2011年   5篇
  2010年   1篇
  2009年   3篇
  2008年   3篇
  2007年   2篇
  2006年   2篇
  2005年   4篇
  2004年   3篇
  2003年   4篇
  2002年   6篇
  2001年   3篇
  2000年   2篇
  1999年   2篇
  1988年   1篇
  1982年   1篇
  1980年   1篇
  1977年   1篇
  1976年   1篇
  1975年   3篇
  1974年   3篇
  1973年   2篇
  1971年   1篇
  1968年   1篇
排序方式: 共有68条查询结果,搜索用时 15 毫秒
1.
Indices of physical work capacity in athletes with different types of adaptation of the cardiorespiratory system that are engaged in various kinds of sports and have sports ranks from Master of Sports to Grade 2 have been studied. It has been shown that the highest physical work capacity is typical of athletes that have the inotropic type of adaptation, and the lowest, of athletes with the chronotropic type of adaptation. High indices of physical work capacity were recorded in athletes with the respiratory type of adaptation. Types of adaptation affect the indices of physical work capacity, and it is possible to forecast sports results on their basis.  相似文献   
2.
The nucleotide composition, relative concentration of pyrimidine clusters, and the degree of methylation of the mitochondrial and nuclear DNA's of various vertebrates and the protozoan Crithidia oncopelti have been studied. With respect to the relative concentration of GC pairs, the mtDNA of animals (bull, rat) does not differ from the corresponding nDNA. The relative concentration of GC pairs in the mtDNA of certain fish and birds is 1.5-2.5 mole% higher than in the respective nDNA. The kinetoplast DNA of the protozoan C. oncopelti (where the relative concentration of the GC pairs is 42.9 mole %) differs very sharply in composition from the nDNA (where the relative concentration of GC pairs is 51.3 mole %). The mtDNA's and kDNA's studied are distinguished from the respective nDNA'S by a lower degree of clustering of pyrimidine nucleotides. The proportion of mono- and dipyrimidine fragments in the mtDNA and kDNA is 30 mole %, while in the nDNA it does not exceed 23 mole %. The relative concentration of long pyrimidine clusters (hexapyrimidine clusters of larger) in the mtDNA is smaller than in the nDNA by a factor of 2-5. The low degree of clustering of the pyrimidine nucleotides is apparently characteristic of all the known mtDNA's and may support the fact that they have a single type of organization and are of a single origin. All the vertebrate mtDNA's studied contain 5-methylcytosine as a minor base (1.5-3.15 mole %), and their level of methylation is 1.5-2 times greater than that in the respective nDNA's. It has been shown that animals display species specificity with respect to the 5-methylcytosine content in the mtDNA. Its distribution among the pyrimidine clusters in the bovine heart mtDNA differs substantially from that in the nDNA. This suggests that the methylation specificities of nuclear and mitochondrial DNA are different. A DNA methylase, which effects the in vitro methylation of cytosine residues both in the homologous mtDNA and in different heterologous DNA's, has been found in rat liver and bovine heart mitochondria. The specificity of the in vitro methylation of the cytosine residues in the same heterologous Escherichia coli B DNA by the nuclear and mitochondrial enzymes is different: The mitochondrial enzyme methylates predominantly in monopyrimidine fragments, and the nuclear enzyme methylates mostly in di- and tripyrimidine fragments. They, therefore, recognize different nucleotide sequences.  相似文献   
3.
Expression and methylation patterns of genes encoding DNA methyltransferases and their functionally related proteins were studied in organs of Arabidopsis thaliana plants. Genes coding for the major maintenance-type DNA methyltransferases, MET1 and CMT3, and the major de novo-type DNA methyltransferase, DRM2, are actively expressed in all organs. Similar constitutively active expression was observed for genes encoding their functionally related proteins, a histone H3K9 methyltransferase KYP and a catalytically non-active protein DRM3. Expression of the MET1 and CMT3 genes is significantly lower in developing endosperm compared with embryo. Vice versa, expression of the MET2a, MET2b, MET3, and CMT2 genes in endosperm is much more active compared with embryo. A special maintenance DNA methylation system seems to operate in endosperm. The DNMT2 and N6AMT genes encoding putative methyltransferases are constitutively expressed at low levels. CMT1 and DRM1 genes are expressed rather weakly in all investigated organs. Most of the studied genes have methylation patterns conforming to the “body-methylated gene” prototype. A peculiar feature of the MET family genes is methylation at all three possible site types (CG, CHG, and CHH). The most weakly expressed among genes of their respective families, CMT1 and DRM1, are practically unmethylated. The MET3 and N6AMT genes have unusual methylation patterns, promoter region, and most of the gene body devoid of any methylation, and the 3'-end proximal part of the gene body is highly methylated.  相似文献   
4.
We studied the process of apoptosis in etiolated wheat (Triticum aestivum L.) seedlings. As a result, an integral pattern of the apoptotic plant cell ultrastructure was established. In the apoptotic cells of the coleoptile, we observed chromatin condensation and margination, an increased density and specific cytoplasm fragmentation accompanied by the appearance of unusual cytoplasmic vesicles containing subcellular organelles, mitochondria in particular, in the vacuoles.  相似文献   
5.
6.
Endonuclease activity with properties similar to those of the animal endonuclease G has been detected in extracts of rabbit liver mitochondria. This activity was detected in the fraction of proteins with molecular mass close to 30 kDa; it was stimulated by Mg2+ ions and inhibited by Zn2+ ions. In contrast to plant endonucleases WEN1 and WEN2, the rabbit endonuclease was not affected by methylation status of the substrate DNA, and S-adenosine-L-methionine inhibited it.  相似文献   
7.
8.
9.
10.
This review considers modern data about the set, nature, specificity of action, and other properties of plant endonucleases involved in various forms of programmed cell death (PCD) in various plant tissues (organs). Apoptosis is an obligatory component of plant development; plant development is impossible without apoptosis. In dependence on the conditions of plant growth, this process can be induced by various biotic and abiotic factors, including stressors. Endonucleases accomplishing apoptotic degradation of nuclear material in the plant cell play one of the main roles in PCD. Plant endonucleases belong to at least two classes: (1) Ca2+- and Mg2+-dependent and (2) Zn2+-dependent nucleases. The set and activities of endonucleases change with plant age and during apoptosis in a tissue-specific manner. Apoptosis is accompanied by the induction of specific endonucleases hydrolyzing DNA in chromatin with the formation firstly of large domains and then internucleosomal DNA fragments; the products produced are of about 140 nucleotides in length with their subsequent degradation to low-molecular-weight oligonucleotides and mononucleotides. About 30 enzymes are involved in apoptotic DNA degradation. Histone H1 modulates endonuclease activity; separate (sub)fractions of this nuclear protein can stimulate or inhibit corresponding plant endonucleases. In the nucleus and cytoplasm of the plant cells, Ca2+/Mg2+-dependent endonucleases recognizing substrate DNA methylation status were revealed and described for the first time; their action resembles that of bacterial restrictases, which activity is modulated by the donor of methyl groups, S-adenosylmethionine. This indicates that higher eukaryotes (higher plants) might possess the system of restriction-modification to some degree analogous to that of prokaryotes.  相似文献   
设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号