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1.
Summary Four derivatives ofCarcinus maenas hemocyanin containing Co(II) in the active site have been prepared under different experimental conditions. Two of them contain one Co(II) ion/active site and most probably represent isomeric forms containing Co(II) either in the fast-reacting or in the slow-reacting position within the active site. A third derivative contains two Co(II) ions active site, which reproduces the metal/protein stoichiometry of native hemocyanin. The fourth derivative is a metal hybrid form containing one Cu(I) ion and one Co(II) ion/active site. The derivatives have been characterized by absorption, circular dichroic and fluorescence spectroscopies. The results indicate that in all derivatives the metal is bound with a low coordination number, in agreement with the presence of three histidine residues/copper ion in the native protein. The two alternative metal-binding positions have different structures as shown by the different spectroscopic properties of the bound Co(II) ions. A marked hyperchromic effect on the optical absorption of Co(II) is observed as a result of the presence of a metal ion in the neighbouring metal-binding position in the active site. 相似文献
2.
Fritz Rudert Wolfgang Zimmermann John A. Thompson 《Journal of molecular evolution》1989,29(2):126-134
Summary Various rodent and primate DNAs exhibit a stronger intra- than interspecies cross-hybridization with probes derived from the N-terminal domain exons of human and rat carcinoembryonic antigen (CEA)-like genes. Southern analyses also reveal that the human and rat CEA gene families are of similar complexity. We counted at least 10 different genes per human haploid genome. In the rat, approximately seven to nine different N-terminal domain exons that presumably represent different genes appear to be present. We were able to assign the corresponding genomic restriction endonuclease fragments to already isolated CEA gene family members of both human and rat. Highly similar subgroups, as found within the human CEA gene family, seem to be absent from the rat genome. Hybridization with an intron probe from the human nonspecific cross-reacting antigen (NCA) gene and analysis of DNA sequence data indicate the conservation of noncoding regions among CEA-like genes within primates, implicating that whole gene units may have been duplicated. With the help of a computer program and by calculating the rate of synonymous substitutions, evolutionary trees have been derived. From this, we propose that an independent parallel evolution, leading to different CEA gene families, must have taken place in, at least, the primate and rodent orders. 相似文献
3.
韩玉珉 《中国生物化学与分子生物学报》1990,6(1):66-70
用寡聚核苷酸诱导的定位突变法,将人U_1和U_2snRNA基因的5'-端调控区域的一段能与SV_(40)T抗原相结合的DNA删去,造成缺失突变,改变这段DNA核苷酸的排列顺序,造成取代突变。突变株用原位杂交法筛选,由限制性内切酶电泳图谱分析和DNA顺序测定得到证实。突变率约为5%。 相似文献
4.
J. Maynard Smith 《Journal of molecular evolution》1994,39(2):123-128
A higher ratio of substitutional to synonymous changes in between-species than in within-species comparisons has been taken as evidence for positive selection changing amino acids. A model is presented in which a difference of this kind arises as a result of purely neutral mutations, provided that the species compared are sufficiently different to approach a steady state between forward and backward mutation. In Neissseria, substitutions are twice as frequent, relative to synonymous changes, in between-species comparisons: it is shown that the data are consistent with the neutral model. The argument does not invalidate evidence for positive selection, for example in Drosophila, when the species compared are fairly similar. 相似文献
5.
Wen-Hsiung Li 《Journal of molecular evolution》1993,36(1):96-99
Summary The current convention in estimating the number of substitutions per synonymous site (K
S
) and per nonsynonymous site (K
A
) between two protein-coding genes is to count each twofold degenerate site as one-third synonymous and two-thirds nonsynonymous
because one of the three possible changes at such a site is synonymous and the other two are nonsynonymous. This counting
rule can considerably overestimate theK
S
value because transitional mutations tend to occur more often than transversional mutations and because most transitional
mutations at twofold degenerate sites are synonymous. A new method that gives unbiased estimates is proposed. An application
of the new and the old method to 14 pairs of mouse and rat genes shows that the new method gives aK
S
value very close to the number of substitutions per fourfold degenerate site whereas the old method gives a value 30% higher.
Both methods give aK
A
value close to the number of substitutions per nondegenerate site. 相似文献
6.
New methods for estimating the numbers of synonymous and nonsynonymous substitutions 总被引:10,自引:0,他引:10
Yasuo Ina 《Journal of molecular evolution》1995,40(2):190-226
New methods for estimating the numbers of synonymous and nonsynonymous substitutions per site were developed. The methods are unweighted pathway methods based on Kimura's two-parameter model. Computer simulations were conducted to evaluate the accuracies of the new methods, Nei and Gojobori's (NG) method, Miyata and Yasunaga's (MY) method, Li, Wu, and Luo's (LWL) method, and Pamilo, Bianchi, and Li's (PBL) method. The following results were obtained: (1) The NG, MY, and LWL methods give overestimates of the number of synonymous substitutions and underestimates of the number of nonsynonymous substitutions. The major cause for the biased estimation is that these three methods underestimate the number of synonymous sites and overestimate the number of nonsynonymous sites. (2) The PBL method gives better estimates of the numbers of synonymous and nonsynonymous substitutions than those obtained by the NG, MY, and LWL methods. (3) The new methods also give better estimates of the numbers of synonymous and nonsynonymous substitutions than those obtained by the NG, MY, and LWL methods. In addition, estimates of the numbers of synonymous and nonsynonymous sites obtained by the new methods are reasonably accurate. (4) In some cases, the new methods and the PBL method give biased estimates of substitution numbers. However, from the number of nucleotide substitutions at the third position of codons, we can examine whether estimates obtained by the new methods are good or not, whereas we cannot make an examination of estimates obtained by the PBL method. (5) When there are strong transition/transversion and nucleotide-frequency biases like mitochondrial genes, all of the above methods give biased estimates of substitution numbers. In such cases, Kondo et al.'s method is recommended to be used for estimating the number of synonymous substitutions, although their method cannot estimate the number of nonsynonymous substitutions and is time-consuming. These results, particularly result (1), call for reexaminations of some genes. This is because evolutionary pictures of genes have often been discussed on the basis of results obtained by the NG, MY, and LWL methods, which are favorable for the neutral theory of molecular evolution. 相似文献
7.
A method for estimating the numbers of synonymous and nonsynonymous substitutions per site 总被引:19,自引:0,他引:19
Josep M. Comeron 《Journal of molecular evolution》1995,41(6):1152-1159
A method for estimating the numbers of synonymous (Ks) and nonsynonymous (Ka) substitutions per site is proposed. The method is based on the Li's (J Mol. Evol. 36:96–99, 1993) and Pamilo and Bianchi's (Mol. Biol. Evol. 10:271–281, 1993) method, but a putative source of bias is solved. It is proposed that the number of synonymous substitutions that are actually transitions or transversions should be computed by separating the twofold degenerate sites into two types of sites, 2S-fold and 2V-fold, where only transitional and transversional substitutions are synonymous, respectively. Kimura's (J. Mol. Evol. 16:111–120, 1980) two-parameter correcting method for multiple substitutions at a site is then applied using the overall observed synonymous transversion frequency to estimate both the numbers of synonymous transversional (Bs) and transitional (As) substitutions per site. This approach, therefore, also minimizes stochastic errors. Computer simulations indicate that the method presented gives more accurate Ks and Ka estimates than the aforementioned methods. Furthermore, the obtention of confidence intervals for divergence estimates by computer simulation is proposed. 相似文献
8.
9.
Synonymous substitution rates in mitochondrial and nuclear genes of Drosophila were compared. To make accurate comparisons, we considered the following: (1) relative synonymous rates, which do not require
divergence time estimates, should be used; (2) methods estimating divergence should take into account base composition; (3)
only very closely related species should be used to avoid effects of saturation; (4) the heterogeneity of rates should be
examined. We modified the methods estimating synonymous substitution numbers to account for base composition bias. By using
these methods, we found that mitochondrial genes have 1.7–3.4 times higher synonymous substitution rates than the fastest
nuclear genes or 4.5–9.0 times higher rates than the average nuclear genes. The average rate of synonymous transversions was
2.7 (estimated from the melanogaster species subgroup) or 2.9 (estimated from the obscura group) times higher in mitochondrial genes than in nuclear genes. Synonymous transversions in mitochondrial genes occurred
at an approximately equivalent rate to those in the fastest nuclear genes. This last result is not consistent with the hypothesis
that the difference in turnover rates between mitochondrial and nuclear genomes is the major factor determining higher synonymous
substitution rates in mtDNA. We conclude that the difference in synonymous substitution rates is due to a combination of two
factors: a higher transitional mutation rate in mtDNA and constraints on nuclear genes due to selection for codon usage.
Received: 27 November 1996 / Accepted: 8 May 1997 相似文献
10.
Mitochondrial small-subunit (19S) rDNA sequences were obtained from 10 angiosperms to further characterize sequence divergence
levels and structural variation in this molecule. These sequences were derived from seven holoparasitic (nonphotosynthetic)
angiosperms as well as three photosynthetic plants. 19S rRNA is composed of a conservative core region (ca. 1450 nucleotides)
as well as two variable regions (V1 and V7). In pairwise comparisons of photosynthetic angiosperms to Glycine, the core 19S rDNA sequences differed by less than 1.4%, thus supporting the observation that variation in mitochondrial rDNA
is 3–4 times lower than seen in protein coding and rDNA genes of other subcellular organelles. Sequences representing four
distinct lineages of nonasterid holoparasites showed significantly increased numbers of substitutions in their core 19S rDNA
sequences (2.3–7.6%), thus paralleling previous findings that showed accelerated rates in nuclear (18S) and plastid (16S)
rDNA from the same plants. Relative rate tests confirmed the accelerated nucleotide substitution rates in the holoparasites
whereas rates in nonparasitic plants were not significantly increased. Among comparisons of both parasitic and nonparasitic
plants, transversions outnumbered transitions, in many cases more than two to one. The core 19S rRNA is conserved in sequence
and structure among all nonparasitic angiosperms whereas 19S rRNA from members of holoparasitic Balanophoraceae have unique
extensions to the V5 and V6 variable domains. Substitution and insertion/deletion mutations characterized the V1 and V7 regions
of the nonasterid holoparasites. The V7 sequence of one holoparasite (Scybalium) contained repeat motifs. The cause of substitution rate increases in the holoparasites does not appear to be a result of
RNA editing, hence the underlying molecular mechanism remains to be fully documented.
Received: 18 May 1997 / Accepted: 11 July 1997 相似文献