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1.
The human Y chromosome carries numerous copies of a tandemly repeated Pvu II sequence, 2.4 kb long. These sequences are specific to humans, and are present in a much smaller amount in the DNA of females. They are localized on the long arm of the Y chromosome. We have compared this sequence with the Hae III 2.1 kb Y-specific repeated sequence, already described. 相似文献
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A few dozen genes are known on the human Y chromosome. The completion of the human genome sequence will allow identification of the remaining loci, which should shed further light on the function and evolution of this peculiar chromosome. 相似文献
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The Y chromosome as a tool for studying human evolution. 总被引:4,自引:0,他引:4
The use of the Y chromosome in human evolutionary research has only recently begun to gain momentum, partly because of a paucity of polymorphism. Differences in male/female behaviour patterns and the unique mode of inheritance of the Y chromosome also complicate interpretation of the data on Y chromosome variation. 相似文献
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Charlesworth B 《Genome biology》2003,4(9):226
The recent sequencing of a large chunk of euchromatin from the human Y chromosome is a technical tour de force. It answers some evolutionary questions about this unusual chromosome while raising others. 相似文献
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The past two years have seen the increased study of Y-chromosome polymorphisms and their relationship to human evolution and variation. Low Y-chromosome sequence diversity indicates that the common ancestor of all extant Y chromosomes lived relatively recently and the consensus of estimates of time to the most recent common ancestor concur with estimates of the mitochondrial DNA ancestor; but we do not know where this ‘Adam’ lived. Though the reason for low nucleotide diversity on the Y-chromosome remains unresolved, some of the mutations are proving highly informative in tracing human prehistoric migrations and are generating new hypotheses on human colonizations and migrations. The recent discovery of highly polymorphic microsatellites on the Y offers new possibilities for the investigation of more recent human evolutionary events, including the identification of male founders. 相似文献
7.
Most eukaryotic chromosomes, akin to messy toolboxes, store jumbles of genes with diverse biological uses. The linkage of a gene to a particular chromosome therefore rarely hints strongly at that gene's function. One striking exception to this pattern of gene distribution is the human Y chromosome. Far from being random and diverse, known human Y-chromosome genes show just a few distinct expression profiles. Their relative functional conformity reflects evolutionary factors inherent to sex-specific chromosomes. 相似文献
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Characterisation of a human Y chromosome repeated sequence and related sequences in higher primates 总被引:33,自引:0,他引:33
The human Y chromosome carries 2000 copies of a tandemly repeated sequence, 2.47 kb long, which constitutes about 20% of the DNA of this chromosome. These sequences are localised on the tip of the long arm of the Y chromosome. Related sequences are present in DNA of females with a related but distinguishable restriction pattern. These autosomal sequences are distributed in tandem arrays on a number of autosomes. Related sequences are also present in gorilla and chimpanzee. In gorilla they resemble the human sequences in their restriction map but are not found on the Y chromosome whereas in chimpanzee the related sequences behave as a dispersed repeat. Changes in the level of methylation of this sequence in different tissues of human males can be detected with the lowest levels found in sperm and placental DNA. 相似文献
9.
Extensive DNA sequence homologies between the human Y and the long arm of the X chromosome. 总被引:20,自引:0,他引:20 下载免费PDF全文
D Geldwerth C Bishop G Guellaën M Koenig G Vergnaud J L Mandel J Weissenbach 《The EMBO journal》1985,4(7):1739-1743
It has been proposed that sequence homology should exist between the short arms of the human sex chromosomes, in the regions pairing at meiosis. Out of 40 clones picked at random from a collection of non-repetitive DNA sequences derived from the human Y chromosome, we have found nine sequences which show very high homology with sequences located on the X chromosome. All nine probes originate from the euchromatic part of the Y chromosome. All the homologous sequences are located within the Xq12-Xq22-24 region. None of them map to the short arm of the X chromosome. We conclude that an important part of the euchromatic region of the Y chromosome is homologous to the middle of the X chromosome long arm, possibly as a result of recent translation event(s). 相似文献
10.
Carvalho AB 《Current opinion in genetics & development》2002,12(6):664-668
Three recent findings are making a deep impact on our understanding of the Drosophila Y. First, the sequencing of the Drosophila genome and the development of proper computational methods increased the number of known single-copy Y-linked genes from 1 to 16, and revealed a chromosome packed with genes acquired from the autosomes. Second, this, coupled with the finding that B-chromosomes are able to show very regular segregation from the X chromosome, reinforce the hypothesis that the Drosophila Y is a specialized B-chromosome, instead of a degenerated homologue of the X. Third and finally, Y chromosomes seem to have a strong effect on male fitness. 相似文献
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Y Nakamura C Julier R Wolff T Holm P O''Connell M Leppert R White 《Nucleic acids research》1987,15(6):2537-2547
We have examined the structure and DNA sequence of a human genomic locus that consists of a large hypervariable region made up of repeats of a simple sequence. With several restriction enzymes, the locus shows many restriction fragments that vary quantitatively as well as qualitatively. Other restriction enzymes produce only a single, high-molecular-weight fragment at this locus. Almost all of the fragments are revealed with a simple sequence probe. Southern transfers of the high-molecular-weight restriction fragments produced by the restriction enzymes NotI and SfiI, resolved by pulsed-field gel electrophoresis, gave at most two fragments, demonstrated to be allelic, showing that the majority of the restriction fragments seen in the complex patterns are at a single locus. The estimated size of the region homologous to the probe varied from 250 to 500 kilobases. DNA sequencing indicated that the region consists of tandem repeats of a 40-base-pair sequence. Some homology was detected to the tandem repeating units of the insulin gene and the zetaglobin pseudogene hypervariable regions, and to the "minisatellite" DNA at the myoglobin locus. 相似文献
13.
Population geneticists remain unsure of the forces driving the evolution of Y chromosomes. Here we consider the possibility that the degeneration of the Y reflects its inability to evolve adaptively. Because the overwhelming majority of favorable mutations on a nonrecombining proto-Y suffer a zero probability of fixation, the fitness of the Y must lag far behind that of the recombining X. At some point, this disparity will grow so large that selection favors an increase in the expression of (fit) X-linked alleles and a decrease in the expression of (unfit) Y-linked alleles. Our calculations suggest that this process acts far more rapidly than hitchhiking-induced erosion of the Y and at least as rapidly as the fixation of deleterious alleles on the Y by background selection. Most important, this hypothesis can explain the evolution of Y chromosomes in taxa such as Drosophila that have very large population sizes. 相似文献
14.
Summary An experimental approach towards the molecular analysis of the male fertility function, located in interval 6 of the human Y chromosome, is presented. This approach is not based on the knowledge of any gene product but on the assumption that the functional DNA structure of male fertility genes, evolutionary conserved with their position on the Y chromosome, may contain an evolutionary conserved frame structure or at least conserved sequence elements. We tested this hypothesis by using dhMiF1, a fertility gene sequence of the Y chromosome of Drosophila hydei, as a screening probe on a pool of cloned human Y-DNA sequences. We were able to select 10 human Y-DNA sequences of which 7 could be mapped to Y interval 6 (the pY6H sequence family). Since the only fertility gene of the human Y chromosome is mapped to the same Y interval, our working hypothesis seems to be strongly supported. Most interesting in this respect is the isolation of the Y-specific repetitive pY6H65 sequence. The pY6H65 locus extends to a length of at least 300 kb in Y interval 6 and has a locus-specific repetitive sequence organization, reminiscent of the functional DNA structure of Y chromosomal fertility genes of Drosophila. We identified the simple sequence family (CA)n as one sequence element conserved between the Drosophila dhMiFi fertility gene sequence and the homologous human Y-DNA sequences. 相似文献
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A DNA fragment from the human X chromosome short arm which detects a partially homologous sequence on the Y chromosomes long arm. 总被引:19,自引:5,他引:14 下载免费PDF全文
An X linked human DNA fragment (named DXS31 ) which detects partially homologous sequences on the Y chromosome has been isolated. Regional localisation of the two sex linked sequences was determined using a panel of rodent-human somatic cell hybrids. The X specific sequence is located at the tip of the short arm ( Xp22 .3-pter), i.e. within or close to the region which pairs with the Y chromosome short arm at meiosis. However the Y specific sequence is located in the heterochromatic region of the long arm ( Yq11 -qter) and lies outside from the pairing region. DNAs from several XX male subjects were probed with DXS31 and in all cases a double dose of the X linked fragment was found, and the Y specific fragment was absent. DXS31 detects in chimpanzee a male-female differential pattern identical to that found in man. However results obtained in a more distantly related species, the brown lemur, suggest that the sequences detected by DXS31 in this species might be autosomally coded. The features observed with these X-Y related sequences do not fit with that expected from current hypotheses of homology between the pairing regions of the two sex chromosomes, nor with the pattern observed with other X-Y homologous sequences recently characterized. Our results suggest also that the rule of conservation of X linkage in mammals might not apply to sequences present on the tip of the X chromosome short arm, in bearing with the controversial issue of steroid sulfatase localisation in mouse. 相似文献
17.
Mapping the human Y chromosome 总被引:1,自引:0,他引:1
J Weissenbach 《Philosophical transactions of the Royal Society of London. Series B, Biological sciences》1988,322(1208):125-131
This paper reviews past and present trends in mapping the human Y chromosome. So far, mapping has essentially used a combination of cytogenetic and molecular analyses of Y-chromosomal anomalies and sex reversal syndromes. This deletion mapping culminated recently in the isolation of the putative sex-determining locus TDF. With the availability of new separation and cloning techniques suited for large size fragments (over 100 kilobases), the next step will consist rather in the establishment of a physical map of fragments of known physical sizes. This may allow the definition of several variants of the human Y chromosome differing by the order or location of DNA sequences along the molecule. 相似文献
18.
The identification of a repeated DNA sequence involved in the karyotype polymorphism of the human Y chromosome 总被引:7,自引:0,他引:7
We show that individual men are polymorphic for the amount of two different repeated DNA sequences. The amount of one of these sequences is proportional to the length of the brightly fluorescent heterochromatin on the Y chromosome. There are no detectable alterations in sequence between polymorphic individuals. Female DNA contains sequences complementary to those found on the Y, but at a much reduced level. 相似文献
19.
Structure of a hypervariable tandemly repeated DNA sequence on the short arm of the human Y chromosome 总被引:14,自引:0,他引:14
The structure of a repeated DNA sequence located on the short arm of the human Y chromosome is described. Genomic mapping and cloning in lambda or cosmid vectors show that the repeated sequence consists of units 20.3 x 10(3) base-pairs long that contain the three previously described DNA sequences: Y-156, Y-190 and Y-223a. Analysis of male genomic DNA by pulsed-field gel electrophoresis shows that the units are tandemly arranged and are organized into two blocks. The major block is hypervariable in size and alleles in the range approximately 540 x 10(3) to 800 x 10(3) base-pairs were detected. The minor block is not variable in size and is approximately 60 x 10(3) base-pairs long. Analysis of rearranged Y chromosomes shows that both blocks are located on the short arm of the chromosome. Most commonly, the major block is distal to the minor block, but the opposite arrangement is also found. 相似文献