HaeIII polymorphism in intron 1 of the human p53 gene

A new HaeIII polymorphism, which is found in the first intron of the human p53 gene, provides a genetic marker for tumor suppressor p53 gene alterations.     

Microsatellite polymorphism in intron 1 of the bovine myostatin gene

Microsatellites within genes have become important because of their association with genetic diseases in humans. A novel microsatellite was identified in the first intron of the bovine myostatin gene. It is characterized by a mononucleotide core motif that exhibits polymorphic sequence variants (from 12 to 21 repeats) within and between some bovine breeds. Structural analysis of the microsatellite region in bovines as well as in closely related species permitted to trace the possible mechanisms for its structural evolution across the order Artiodactyla.     

Genome-scale identification of resistance gene analogs and the development of their intron length polymorphism markers in maize

As introns are vulnerable to changes such as insertions and deletions when exposed to various evolutionary forces, they constitute a repository for developing genetic markers based on intron length polymorphisms (ILP). This study developed a set of genetic markers that use the potential intron length polymorphism in resistance gene analogs (RGAs) in Zea mays. By searching the genome of Zea mays B73 for the homologs of 73 R genes which have already been identified in plants, we found 861 RGAs, 632 of which have at least one intron that can serve as putative markers targeting the intron length polymorphism in RGAs (RGA-ILP). We developed 1972 candidate markers via electronic PCR (e-PCR) with primer pairs designed in each pair of exonic regions that flank an intron. Furthermore, the performance of RGA-ILP among four maize inbred lines (Huangzao4, B73, Mo17, and Dan340) was evaluated with 69 pairs of randomly selected primers. Of them, 46.4% showed bands that had discriminating length polymorphism, and between any two of the inbred lines the proportion of polymorphism ranged from 23.2 to 31.9%. To make it convenient to use these markers for those interested in molecular breeding of disease-resistant maize, we provide all related information in a web-based database named MaizeRGA, which is available at .     

GM polymorphism and the evolutionary history of modern humans

Present human populations show a complex network of genetic relationships, which reflects mainly their unique origin and their migration and isolation history since the recent creation of modern man. The scrutiny of their genetic characteristics, according to GM polymorphism, shows that the continuity of the genetic variation between populations from neighbouring continents, assured by intermediate world part populations, is against any attempt to divide present human populations into major groups. GM polymorphism analysis also shows three remarkable levels of genetic differentiation, which would have appeared, respectively, within populations of sub-Saharan Africa, Europe and East Asia. The first small groups of people that split from the common ancestral population gave the sub-Saharan Africans. On the other hand, Asians diverged mainly from Europeans and Near East populations during a later period. The confrontation between the phylogeny and the frequency distribution of GM haplotypes shows that the ancestral population of actual South-Arabia people could be a candidate for a common ancestral population. The first major expansions of modern humans were proposed in a hypothetical scenario, which will open a new track in the research of our geographic origin.     

The evolutionary history of human and chimpanzee Y-chromosome gene loss

Recent studies have suggested that gene gain and loss may contribute significantly to the divergence between humans and chimpanzees. Initial comparisons of the human and chimpanzee Y-chromosomes indicate that chimpanzees have a disproportionate loss of Y-chromosome genes, which may have implications for the adaptive evolution of sex-specific as well as reproductive traits, especially because one of the genes lost in chimpanzees is critically involved in spermatogenesis in humans. Here we have characterized Y-chromosome sequences in gorilla, bonobo, and several chimpanzee subspecies for 7 chimpanzee gene-disruptive mutations. Our analyses show that 6 of these gene-disruptive mutations predate chimpanzee-bonobo divergence at approximately 1.8 MYA, which indicates significant Y-chromosome change in the chimpanzee lineage relatively early in the evolutionary divergence of humans and chimpanzees.     

Early evolutionary history and genomic features of gene duplicates in the human genome

Background

Human gene duplicates have been the focus of intense research since the development of array-based and targeted next-generation sequencing approaches in the last decade. These studies have primarily concentrated on determining the extant copy-number variation from a population-genomic perspective but lack a robust evolutionary framework to elucidate the early structural and genomic characteristics of gene duplicates at emergence and their subsequent evolution with increasing age.

Results

We analyzed 184 gene duplicate pairs comprising small gene families in the draft human genome with 10 % or less synonymous sequence divergence. Human gene duplicates primarily originate from DNA-mediated events, taking up genomic residence as intrachromosomal copies in direct or inverse orientation. The distribution of paralogs on autosomes follows random expectations in contrast to their significant enrichment on the sex chromosomes. Furthermore, human gene duplicates exhibit a skewed gradient of distribution along the chromosomal length with significant clustering in pericentromeric regions. Surprisingly, despite the large average length of human genes, the majority of extant duplicates (83 %) are complete duplicates, wherein the entire ORF of the ancestral copy was duplicated. The preponderance of complete duplicates is in accord with an extremely large median duplication span of 36 kb, which enhances the probability of capturing ancestral ORFs in their entirety. With increasing evolutionary age, human paralogs exhibit declines in (i) the frequency of intrachromosomal paralogs, and (ii) the proportion of complete duplicates. These changes may reflect lower survival rates of certain classes of duplicates and/or the role of purifying selection. Duplications arising from RNA-mediated events comprise a small fraction (11.4 %) of all human paralogs and are more numerous in older evolutionary cohorts of duplicates.

Conclusions

The degree of structural resemblance, genomic location and duplication span appear to influence the long-term maintenance of paralogs in the human genome. The median duplication span in the human genome far exceeds that in C. elegans and yeast and likely contributes to the high prevalence of complete duplicates relative to structurally heterogeneous duplicates (partial and chimeric). The relative roles of regulatory sequence versus exon-intron structure changes in the acquisition of novel function by human paralogs remains to be determined.

Electronic supplementary material

The online version of this article (doi:10.1186/s12864-015-1827-3) contains supplementary material, which is available to authorized users.     

EcoRI restriction fragment length polymorphism in human glycogen synthase gene

Two alleles of 10.1 and 8.1 kb of the human glycogen synthase gene have been revealed with the restriction enzyme EcoRI.     

A highly informative CA/GT repeat polymorphism in intron 38 of the human neurofibromatosis type 1 (NF1) gene

We describe a polymorphic microsatellite in intron 38 of the neurofibromatosis type 1 (NF1) gene. The microsatellite consists of a CA/GT dinucleotide repeat detecting 8 alleles; it has a heterozygosity of 82 %.     

羊轮状病毒NT株VP1基因的测序和分子进化分析

摘要：【目的】为了研究羊轮状病毒NT株VP1基因的遗传进化规律,【方法】根据GenBank中相关VP1基因的保守序列,设计合成引物,扩增NT株VP1基因并进行克隆测序和序列分析。【结果】 氨基酸序列比较表明NT株与其他毒株VP1基因的相似性为77.3%～98.4%,且氨基酸突变多发生在VP1蛋白的非功能区。VP1蛋白进化树表明NT株与牛轮状病毒处于同一进化分支,有较近的亲缘关系。结合26株具有代表性的轮状病毒,计算毒株间VP1基因的核苷酸和氨基酸进化距离,并对核苷酸的同义突变率（dS）和非同义突变率（dN）进行研究,发现dN/dS的比值小于1,说明同义替代是VP1基因在进化过程中的主要变异。【结论】本文首次对羊轮状病毒NT株进行了VP1基因的测序,并对VP1基因的进化距离和进化规律进行深入探讨。     

Restriction fragment length polymorphism of the human T cell receptor alpha gene

Previous studies have demonstrated restriction fragment length polymorphisms (RFLP) in the vicinity of the alpha and beta genes of the human T-cell receptor. In the course of experiments designed to discover additional polymorphic restriction sites, we found a new RFLP of the T-cell alpha gene recognized by the restriction enzyme Taq I. The site was localized to the interval between the most 3 joining (J) exon and the most 5 constant (C) region exon, about 7 kb distant from the previously described Bgl II polymorphic site which mapped to the vicinity of the 3 untranslated exon. With the use of these two polymorphic markers, four Ti-alpha alleles could be identified, allowing unambiguous assignment of all Ti-alpha genes in some families. These markers may be useful in identifying possible immune response genes or disease predisposition genes associated with the genes of the T-cell receptor for antigen.Abbreviations used in this paper RFLP restriction fragment length polymorphism - Ti-alpha alpha gene of the T-cell receptor for antigen     

A polymorphism in a region with enhancer activity in the second intron of the human apolipoprotein B gene

A 443-base pair fragment (+622 to +1064) from the second intron of the human apolipoprotein B gene was shown to contain a tissue-specific enhancer when placed in front of an apolipoprotein B promoter-chloramphenicol acetyltransferase construct in transfection experiments. To identify potential regulatory mutations in this region of the gene, DNA from various subjects was examined for the presence of point mutations by means of chemical cleavage of mismatched heteroduplexes. An A----G substitution within the second intron of the gene at position +722 was identified in three unrelated subjects and confirmed by DNA sequencing. Although the base substitution was contained within a nuclear protein-binding site, as determined by DNase I footprinting, it did not appear to affect the protein/DNA interaction in its vicinity, as shown by gel retardation experiments. The single base substitution at position +722 abolishes a StyI restriction site, thus creating a StyI polymorphism. Using allele-specific oligonucleotides, we screened the DNA of 172 subjects for the presence of this polymorphism: two other subjects carrying the polymorphism were found. In each of the five unrelated subjects, the polymorphism was associated with the same haplotype.