The mutated gene responsible for the tubby obesity phenotype has been identified by positional cloning. A single base change within a splice donor site results in the incorrect retention of a single intron in the mature tub mRNA transcript. The consequence of this mutation is the substitution of the carboxy-terminal 44 amino acids with 24 intron-encoded amino acids. The normal transcript appears to be abundantly expressed in the hypothalamus, a region of the brain involved in body weight regulation. Variation in the relative abundance of alternative splice products is observed between inbred mouse strains and appears to correlate with an intron length polymorphism. This allele of tub is a candidate for a previously reported diet-induced obesity quantitative trait locus on mouse chromosome 7.
We report a collection of tri- and tetranucleotide repeat sequence polymorphic markers used to construct genome-wide human linkage maps. Using a strategy of marker selection to create libraries highly enriched for the presence of specific tandem repeat elements, we have developed over 2000 high heterozygosity, easy-to-use tri- and tetranucleotide short tandem repeat polymorphisms (STRPs). To date, over 1300 of these markers have been genotyped on the CEPH reference families. Additional STRPs were assigned to chromosomes using human monochromosomal somatic cell hybrids. The linkage maps constructed with these markers have been integrated with other CEPH genotypes into a comprehensive high density linkage map. These STRPs have been shown to be robust for genotyping in a variety of laboratories using a variety of methods. The high quality of these STRPs makes them ideal candidates for use in genome-wide linkage searches. The integration of these markers with physical mapping reagents and other genetic markers will create a resource for moving from genome-wide linkage searches to rapid sublocalization of disease loci.
The MGC Project Team 1Since its start, the Mammalian Gene Collection (MGC) has sought to provide at least one full-protein-coding sequence cDNA clone for every human and mouse gene with a RefSeq transcript, and at least 6200 rat genes. The MGC cloning effort initially relied on random expressed sequence tag screening of cDNA libraries. Here, we summarize our recent progress using directed RT-PCR cloning and DNA synthesis. The MGC now contains clones with the entire protein-coding sequence for 92% of human and 89% of mouse genes with curated RefSeq (NM-accession) transcripts, and for 97% of human and 96% of mouse genes with curated RefSeq transcripts that have one or more PubMed publications, in addition to clones for more than 6300 rat genes. These high-quality MGC clones and their sequences are accessible without restriction to researchers worldwide.
Poh1 deubiquitinase activity is required for proteolytic processing of polyubiquitinated substrates by the 26S proteasome, linking deubiquitination to complete substrate degradation. Poh1 RNA interference (RNAi) in HeLa cells resulted in a reduction in cell viability and an increase in polyubiquitinated protein levels, supporting the link between Poh1 and the ubiquitin proteasome pathway. To more specifically test for any requirement of the zinc metalloproteinase motif of Poh1 to support cell viability and proteasome function, we developed a RNAi complementation strategy. Effects on cell viability and proteasome activity were assessed in cells with RNAi of endogenous Poh1 and induced expression of wild-type Poh1 or a mutant form of Poh1, in which two conserved histidines of the proposed catalytic site were replaced with alanines. We show that an intact zinc metalloproteinase motif is essential for cell viability and 26S proteasome function. As a required enzymatic component of the proteasome, Poh1 is an intriguing therapeutic drug target for cancer. [Mol Cancer Ther 2007;6(1):262 -8]
A bovine genomic phagemid library was constructed with randomly sheared DNA. Enrichment of this single-stranded DNA library with CA or GT primers resulted in 45% positive clones. The 14% of positive clones with (CA.GT) > 12, and not containing flanking repetitive elements, were sequenced, and the efficiency of marker production was compared with random M13 bacteriophage libraries. Primer sequences and genotyping information are presented for 390 informative bovine microsatellite markers. The genomic frequency for 11 tri- and tetranucleotide repeats was estimated by hybridization to a lambda genomic library. Only GCT, GGT, and GGAT were estimated to have a frequency of > 100 per genome. Enrichment of the phagemid library for these repeats failed to provide a viable source of microsatellite markers in the bovine. Comparison of map interval lengths between 100 markers from the enriched library prepared from randomly sheared DNA and M13 bacteriophage libraries prepared from Mbo1 restriction digests suggested no bias in skeletal genomic coverage based on source of small insert DNA. In conclusion, enrichment of the bovine phagemid library provides a sufficient source of microsatellites so that small repeat lengths and flanking repetitive sequences common in the bovine can be eliminated, resulting in a high percentage of informative markers.
Genetic markers based upon PCR amplification of short tandem repeat-containing sequence tagged sites (STSs) have become the standard for genetic mapping. We have completed a survey based on the direct isolation of representative members of each of the 10 trinucleotide repeat classes to determine their relative abundance, repeat size distribution, and general utility as genetic markers. Trinucleotide repeats, depending on the repeat class, are one to two orders of magnitude less frequent than (AC)n repeats. The average size of trinucleotide repeats sequenced was less than 15 repeat units in length, and only three of the STSs developed for this study demonstrated more than 25 repeats units. The (AAT)n class of repeats are the most abundant and also the most frequently polymorphic. Other classes of trinucleotide repeat classes observed to be frequently polymorphic include (AAC)n, (ACT)n, (ATC)n and (AAG)n; however, the relative abundance of these classes is less than that observed for the (AAT)n class of repeats. Based upon this initial survey, we have initiated saturation cloning of the (AAT)n class of repeats. At the time of submission of this manuscript, we have developed, as part of the Cooperative Human Linkage Center (CHLC), more than 415 new high heterozygosity (AAT)n genetic markers (more than two alleles in four individuals) and 200 new low heterozygosity (AAT)n STSs from this larger screening effort combined with the initial survey.
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