Malcolm A. Ferguson‐Smith scite author profile

A list of authors and their affiliations appears at the end of the paperWe present a draft genome sequence of the platypus, Ornithorhynchus anatinus. This monotreme exhibits a fascinating combination of reptilian and mammalian characters. For example, platypuses have a coat of fur adapted to an aquatic lifestyle; platypus females lactate, yet lay eggs; and males are equipped with venom similar to that of reptiles. Analysis of the first monotreme genome aligned these features with genetic innovations. We find that reptile and platypus venom proteins have been co-opted independently from the same gene families; milk protein genes are conserved despite platypuses laying eggs; and immune gene family expansions are directly related to platypus biology. Expansions of protein, non-protein-coding RNA and microRNA families, as well as repeat elements, are identified. Sequencing of this genome now provides a valuable resource for deep mammalian comparative analyses, as well as for monotreme biology and conservation.

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Cytogenetic analysis by chromosome painting using dop‐pcr amplified flow‐sorted chromosomes

Telenius

Pelmear

Tunnacliffe

et al. 1992

Genes Chromosomes & Cancer

537

320

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A novel polymerase chain reaction (PCR) technique has been combined with chromosome flow sorting to characterise two lymphoblastoid cell lines and one medullary thyroid carcinoma cell line carrying translocations close to the locus for multiple endocrine neoplasia type 2A (MEN 2A). Five hundred copies of the derivative chromosome(s) were flow sorted from each cell line and amplified by degenerate oligonucleotide-primed-polymerase chain reaction (DOP-PCR). This generated pools of DNA sequences corresponding to the abnormal chromosomes, which were then used as probes in fluorescence in situ hybridisation (FISH) experiments on normal metaphase cells. The resultant chromosome paints revealed the portions of the normal chromosomes related to those involved in the translocations. By this technique, translocation breakpoints in bands p15, q11.2, and q21 of chromosome 10 were defined in the above cell lines, in two cases refining previous cytogenetic data. This study shows that flow sorting of aberrant chromosomes and chromosome painting can be used as a rapid aid to cytogenetic analysis, particularly in cases of difficult karyotypes, such as tumours. Furthermore, the DOP-PCR technique described here will have applications to other areas of genome analysis, such as cloning of new markers; its design will allow a general and representative amplification to occur from any starting DNA in any species.

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Bird-like sex chromosomes of platypus imply recent origin of mammal sex chromosomes

Veyrunes¹,

Waters²,

Miethke³

et al. 2008

Genome Res.

268

249

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In therian mammals (placentals and marsupials), sex is determined by an XX female: XY male system, in which a gene (SRY) on the Y affects male determination. There is no equivalent in other amniotes, although some taxa (notably birds and snakes) have differentiated sex chromosomes. Birds have a ZW female: ZZ male system with no homology with mammal sex chromosomes, in which dosage of a Z-borne gene (possibly DMRT1) affects male determination. As the most basal mammal group, the egg-laying monotremes are ideal for determining how the therian XY system evolved. The platypus has an extraordinary sex chromosome complex, in which five X and five Y chromosomes pair in a translocation chain of alternating X and Y chromosomes. We used physical mapping to identify genes on the pairing regions between adjacent X and Y chromosomes. Most significantly, comparative mapping shows that, contrary to earlier reports, there is no homology between the platypus and therian X chromosomes. Orthologs of genes in the conserved region of the human X (including SOX3, the gene from which SRY evolved) all map to platypus chromosome 6, which therefore represents the ancestral autosome from which the therian X and Y pair derived. Rather, the platypus X chromosomes have substantial homology with the bird Z chromosome (including DMRT1) and to segments syntenic with this region in the human genome. Thus, platypus sex chromosomes have strong homology with bird, but not to therian sex chromosomes, implying that the therian X and Y chromosomes (and the SRY gene) evolved from an autosomal pair after the divergence of monotremes only 166 million years ago. Therefore, the therian X and Y are more than 145 million years younger than previously thought.

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Reciprocal chromosome painting among human, aardvark, and elephant (superorder Afrotheria) reveals the likely eutherian ancestral karyotype

Yang

Alkalaeva

Perelman

et al. 2003

Proc. Natl. Acad. Sci. U.S.A.

155

194

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The Afrotheria, a supraordinal grouping of mammals whose radiation is rooted in Africa, is strongly supported by DNA sequence data but not by their disparate anatomical features. We have used flow-sorted human, aardvark, and African elephant chromosome painting probes and applied reciprocal painting schemes to representatives of two of the Afrotherian orders, the Tubulidentata (aardvark) and Proboscidea (elephants), in an attempt to shed additional light on the evolutionary affinities of this enigmatic group of mammals. Although we have not yet found any unique cytogenetic signatures that support the monophyly of the Afrotheria, embedded within the aardvark genome we find the strongest evidence yet of a mammalian ancestral karyotype comprising 2n ‫؍‬ 44. This karyotype includes nine chromosomes that show complete conserved synteny to those of man, six that show conservation as single chromosome arms or blocks in the human karyotype but that occur on two different chromosomes in the ancestor, and seven neighbor-joining combinations (i.e., the synteny is maintained in the majority of species of the orders studied so far, but which corresponds to two chromosomes in humans). The comparative chromosome maps presented between human and these Afrotherian species provide further insight into mammalian genome organization and comparative genomic data for the Afrotheria, one of the four major evolutionary clades postulated for the Eutheria.

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Germline mutations in the Von Hippel-Lindau disease (VHL) gene in families from North America, Europe, and Japan

et al. 1996

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Identification of intragenic mutations in the Von Hippel — Lindau disease tumour suppressor gene andcorrelation with disease phenotype

Crossey¹,

Richards²,

Foster³

et al. 1994

Hum Mol Genet

353

192

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Von Hippel-Lindau (VHL) disease is a dominantly inherited familial cancer syndrome predisposing to a variety of malignant and benign neoplasms, most frequently retinal, cerebellar and spinal haemangioblastoma, renal cell carcinoma, phaeochromocytoma and pancreatic tumours. We have previously detected large germline deletions by Southern analysis and pulsed field gel electrophoresis in 19% and 3% of VHL patients respectively. We have now investigated 94 VHL patients without large deletions for intragenic mutations using single strand conformation polymorphism and heteroduplex analysis. Forty different mutations were identified in 55 unrelated kindreds. A wide variety of mutations were detected including missense (n = 19), nonsense (n = 6), frameshift deletions or insertions (n = 12), in frame deletions (n = 2) and a splice donor site mutation (n = 1). The two most frequent mutations, were missense mutations at codon 238 (Arg-->Gln and Arg-->Trp) and were detected in five and four unrelated kindreds, respectively. VHL disease shows marked phenotypic variability and although phaeochromocytoma occurs in only about 7% of patients, marked interfamilial differences are observed. We examined the relationship between VHL gene mutations and phenotype in 65 kindreds. Large deletions or intragenic mutations predicted to cause a truncated protein were found in 36 of 53 families without phaeochromocytoma but only two of 12 families with phaeochromocytoma (chi 2 = 8.58; P < 0.01). Of 12 families with phaeochromocytoma 10 had missense mutations compared with 13 of 53 kindreds without phaeochromocytoma (chi 2 = 12.33; P < 0.001). In particular, substitution of an arginine at codon 238 (Arg-->Trp or Arg-->Gln) was associated with a high risk (62%) of phaeochromocytoma.(ABSTRACT TRUNCATED AT 250 WORDS)

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Somatic mutations of the von Hippel — Lindau disease tumour suppressor gene in non-familial clear cell renal carcinoma

Foster¹,

Prowse²,

et al. 1994

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Loss of heterozygosity (LOH) studies have suggested that somatic mutations of a tumour suppressor gene or genes on chromosome 3p are a critical event in the pathogenesis of non-familial renal cell carcinoma (RCC). Germline mutations of the von Hippel-Lindau (VHL) disease gene predispose to early onset and multifocal clear cell renal cell carcinoma, and the mechanism of tumorigenesis in VHL disease is consistent with a one-hit mutation model. To investigate the role of somatic VHL gene mutations in non-familial RCC, we analysed 99 primary RCC for VHL gene mutations by SSCP and heteroduplex analysis. Somatic VHL gene mutations were identified in 30 of 65 (46%) sporadic RCC with chromosome 3p allele loss and one of 34 (3%) tumours with no LOH for chromosome 3p. The VHL gene mutations were heterogeneous (17 frameshift deletions, eight missense mutations, four frameshift insertions, one nonsense and one splice site mutation), but no mutations were detected in the first 120 codons of cloned coding sequence. Most RCCs with somatic VHL mutations (23 of 27 (85%) informative cases) had chromosome 3p25 allele loss in the region of the VHL gene so that both alleles of the VHL gene had been inactivated as expected from a two-hit model of tumorigenesis. Detailed histopathology was available for 59 of the tumours investigated: 18 of 43 (42%) RCC with a clear cell appearance had a somatic VHL gene mutation but none of 16 non-clear cell RCC (eight chromophilic, three chromophobe and five oncocytoma) (chi2 = 7.77, P < 0.025).(ABSTRACT TRUNCATED AT 250 WORDS)

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Comparative analysis of mammalian Y chromosomes illuminates ancestral structure and lineage-specific evolution

et al. 2013

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Although more than thirty mammalian genomes have been sequenced to draft quality, very few of these include the Y chromosome. This has limited our understanding of the evolutionary dynamics of gene persistence and loss, our ability to identify conserved regulatory elements, as well our knowledge of the extent to which different types of selection act to maintain genes within this unique genomic environment. Here, we present the first MSY (male-specific region of the Y chromosome) sequences from two carnivores, the domestic dog and cat. By combining these with other available MSY data, our multiordinal comparison allows for the first accounting of levels of selection constraining the evolution of eutherian Y chromosomes. Despite gene gain and loss across the phylogeny, we show the eutherian ancestor retained a core set of 17 MSY genes, most being constrained by negative selection for nearly 100 million years. The X-degenerate and ampliconic gene classes are partitioned into distinct chromosomal domains in most mammals, but were radically restructured on the human lineage. We identified multiple conserved noncoding elements that potentially regulate eutherian MSY genes. The acquisition of novel ampliconic gene families was accompanied by signatures of positive selection and has differentially impacted the degeneration and expansion of MSY gene repertoires in different species.[Supplemental material is available for this article.]Y chromosomes have arisen independently in divergent evolutionary lineages across the eukaryotic tree of life

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