C M Chow scite author profile

Linkage disequilibrium (LD) mapping provides a powerful method for fine-structure localization of rare disease genes, but has not yet been widely applied to common disease. We sought to design a systematic approach for LD mapping and apply it to the localization of a gene (IBD5) conferring susceptibility to Crohn disease. The key issues are: (i) to detect a significant LD signal (ii) to rigorously bound the critical region and (iii) to identify the causal genetic variant within this region. We previously mapped the IBD5 locus to a large region spanning 18 cM of chromosome 5q31 (P<10(-4)). Using dense genetic maps of microsatellite markers and single-nucleotide polymorphisms (SNPs) across the entire region, we found strong evidence of LD. We bound the region to a common haplotype spanning 250 kb that shows strong association with the disease (P< 2 x 10(-7)) and contains the cytokine gene cluster. This finding provides overwhelming evidence that a specific common haplotype of the cytokine region in 5q31 confers susceptibility to Crohn disease. However, genetic evidence alone is not sufficient to identify the causal mutation within this region, as strong LD across the region results in multiple SNPs having equivalent genetic evidence-each consistent with the expected properties of the IBD5 locus. These results have important implications for Crohn disease in particular and LD mapping in general.

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Developmental regulation of the gene for formate dehydrogenase in Neurospora crassa

Chow

RajBhandary

1993

J Bacteriol

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We have isolated and characterized a gene,fdh, from Neurospora crassa which is developmentally regulated and which produces formate dehydrogenase activity when expressed in Escherichia coli. The gene is closely linked (less than 0.6 kb apart) to the ku-S gene encoding mitochondrial leucyl-tRNA synthetase; the two genes are transcribed convergently from opposite strands. The expression patterns of these genes differ:fdh mRNA is found only during conidiation and early germination and is not detectable during mycelial growth, while ku-5 mRNA appears during germination and mycelial growth. The structure of thefdh gene was determined from the sequence of cDNA and genomic DNA clones and from mRNA mapping studies. The gene encodes a 375-amino-acid-long protein with sequence similarity to NAD-dependent dehydrogenases of the E. coli 3-phosphoglycerate dehydrogenase (serA gene product) subfamily. In particular, there is striking sequence similarity (52% identity) to formate dehydrogenase from Pseudomonas sp. strain 101. All of the residues thought to interact with NAD in the crystal structure of the Pseudomonas enzyme are conserved in the N. crassa enzyme. We have further shown that expression of the N. crassa gene in E. coli leads to the production of formate dehydrogenase activity, indicating that the N. crassa gene specifies a functional polypeptide.

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The cel3 gene of Agaricus bisporus codes for a modular cellulase and is transcriptionally regulated by the carbon source

Chow

Yagüe

Raguz

et al. 1994

Appl Environ Microbiol

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A 52-kDa protein, CEL3, has been separated from the culture filtrate ofAgaricus bisporus during growth on cellulose. A PCR-derived probe was made, with a degenerate oligodeoxynucleotide derived from the amino acid sequence of a CEL3 CNBr cleavage product and was used to select ceI3 cDNA clones from an A. bisporus cDNA library. Two allelic cDNAs were isolated. They showed 98.8% identity of their nucleotide sequences. The deduced amino acid sequence and domain architecture of CEL3 showed a high degree of similarity to those of cellobiohydrolase II of Trichoderma reesei. Functional expression of cel3 cDNA in Saccharomyces cerevisiae was achieved by placing it under the control of a constitutive promoter and fusing it to the yeast invertase signal sequence. Recombinant CEL3 secreted by yeast showed enzymatic activity towards crystalline cellulose. At long reaction times, CEL3 was also able to degrade carboxymethyl cellulose. Northern (RNA) analysis showed that cel3 gene expression was induced by cellulose and repressed by glucose, fructose, 2-deoxyglucose, and lactose. Glycerol, mannitol, sorbitol, and maltose were neutral carbon sources. Nuclear run-on analysis showed that the rate of synthesis of cel3 mRNA in cellulose-grown cultures was 13 times higher than that in glucose-grown cultures. A low basal rate of cel3 mRNA synthesis was observed in the nuclei isolated from glucose-grown mycelia.

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Nuclear gene for mitochondrial leucyl-tRNA synthetase of Neurospora crassa: isolation, sequence, chromosomal mapping, and evidence that the leu-5 locus specifies structural information.

Chow¹,

Metzenberg²,

RajBhandary³

1989

Mol. Cell. Biol.

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We have isolated and characterized the nuclear gene for the mitochondrial leucyl-tRNA synthetase (LeuRS) of Neurospora crassa and have established that a defect in this structural gene is responsible for the keu-5 phenotype. We have purified mitochondrial LeuRS protein, determined its N-terminal sequence, and used this sequence information to identify and isolate a full-length genomic DNA clone. The 3.7-kilobase-pair region representing the structural gene and flanking regions has been sequenced. The 5' ends of the mRNA were mapped by Si nuclease protection, and the 3' ends were determined from the sequence of cDNA clones. The gene contains a single short intron, 60 base pairs long. The methionine-initiated open reading frame specifies a 52-amino-acid mitochondrial targeting sequence followed by a 942-amino-acid protein. Restriction fragment length polymorphism analyses mapped the mitochondrial LeuRS structural gene to linkage group V, exactly where the ku-S mutation had been mapped before. We show that the ku-S strain has a defect in the structural gene for mitochondrial LeuRS by restoring growth under restrictive conditions for this strain after transformation with a wild-type copy of the mitochondrial LeuRS gene. We have cloned the mutant allele present in the ku-S strain and identified the defect as being due to a Thr-to-Pro change in mitochondrial LeuRS. Finally, we have used immunoblotting to show that despite the apparent lack of mitochondrial LeuRS activity in ku-S extracts, the ku-S strain contains levels of mitochondrial LeuRS protein to similar to those of the wild-type strain.The mitochondria of eucaryotic cells possess a DNA genome which is distinct from that in the nucleus. The mitochondrial DNA is replicated, transcribed, and used to synthesize proteins within the mitochondrial matrix. However, the coding capacity of most mitochondrial genomes is limited to the tRNAs and rRNAs required for protein synthesis and the mRNAs for a few proteins, most of which are involved in electron transport (8). The mitochondria are almost completely dependent upon the nuclear genome for the proteins that function within them. These nucleusencoded proteins are synthesized in the cytoplasm and imported into the mitochondrion. Thus, the nuclear genome encodes proteins which are required for analogous functions in the mitochondria and the cytoplasm (protein synthesis and energy metabolism) and in the mitochondria and the nucleus (DNA replication, RNA synthesis, most tRNA modifications, etc.).Work with the yeast Saccharomyces cerevisiae has suggested two strategies for specifying differential localization of proteins performing the same basic functions. For histidyl-tRNA synthetase (43), valyl-tRNA synthetase (10), and several of the tRNA-modifying enzymes (18,20,29), differential transcription of single genes with alternate in-frame protein synthesis initiation sites allows for two forms to be made and localized to the appropriate compartment. The 5' end of the mRNA for these enzymes determines which form of the enzyme...

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C M Chow

Genetic variation in the 5q31 cytokine gene cluster confers susceptibility to Crohn disease

Developmental regulation of the gene for formate dehydrogenase in Neurospora crassa

The cel3 gene of Agaricus bisporus codes for a modular cellulase and is transcriptionally regulated by the carbon source

Nuclear gene for mitochondrial leucyl-tRNA synthetase of Neurospora crassa: isolation, sequence, chromosomal mapping, and evidence that the leu-5 locus specifies structural information.

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