K. Yoshizawa scite author profile

K. Yoshizawa

5Publications

85Citation Statements Received

112Citation Statements Given

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108

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Kobe University

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Localization of the muscular dystrophy AM locus using a chicken linkage map constructed with the Kobe University resource family

et al. 2002

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A chicken linkage map, constructed with the Kobe University (KU) resource family, was used to locate the genetic locus for muscular dystrophy of abnormal muscle type (AM). The KU resource family is a backcross pedigree with 55 offspring produced from the mating of a White Leghorn F-line (WL-F) male and a hybrid female produced from a cross between the WL-F male and a female of the Fayoumi OPN line who was homozygous for the AM gene. In total, 872 loci were genotyped on the pedigree; 749 (86%) were informative and mapped to 38 linkage groups. These informative loci included 649 AFLPs, 93 MS, three functional genes, the AM locus, sex phenotype, and two red blood cell loci. The remaining 123 markers were unlinked. Nineteen of the 38 KU linkage groups were assigned to macrochromosomes 1-8 and 11 microchromosomes including chromosome W, while 19 linkage groups were unassigned. The total map was 3569 cM in length, with an average marker interval of 4.8 cM. The AM locus was mapped 130 cM from the distal end of chromosome 2q.

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The ubiquitin ligase gene (WWP1) is responsible for the chicken muscular dystrophy

et al. 2008

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Chicken muscular dystrophy with abnormal muscle (AM) has been studied for more than 50 years, but the gene responsible for it remains unclear. Our previous studies narrowed down the AM candidate region to approximately 1 Mbp of chicken chromosome 2q containing seven genes. In this study, we performed sequence comparison and gene expression analysis to elucidate the responsible gene. One missense mutation was detected in AM candidate genes, while no remarkable alteration of expression patterns was observed. The mutation was identified in WWP1, detected only in dystrophic chickens within several tetrapods. These results suggested WWP1 is responsible for chicken muscular dystrophy.

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Breed Discrimination Using DNA Markers Derived from AFLP in Japanese Beef Cattle

Sasazaki¹,

Imada²,

Mutoh³

et al. 2006

Asian Australas. J. Anim. Sci

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Analyses of Beta-1 Syntrophin, Syndecan 2 and Gem GTPase as Candidates for Chicken Muscular Dystrophy

et al. 2003

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Abstract:Despite intensive studies of muscular dystrophy of chicken, the responsible gene has not yet been identified. Our recent studies mapped the genetic locus for abnormal muscle (AM) of chicken with muscular dystrophy to chromosome 2q using the Kobe University (KU) resource family, and revealed the chromosome region where the AM gene is located has conserved synteny to human chromosome 8q11-24.3, where the beta-1 syntrophin (SNTB1), syndecan 2 (SDC2) and Gem GTPase (GEM) genes are located. It is reasonable to assume those genes might be candidates for the AM gene. In this study, we cloned and sequenced the chicken SNTB1, SDC2 and GEM genes, and identified sequence polymorphisms between parents of the resource family. The polymorphisms were genotyped to place these genes on the chicken linkage map. The AM gene of chromosome 2q was mapped 130 cM from the distal end, and closely linked to calbindin 1 (CALB1). SNTB1 and SDC2 genes were mapped 88.5 cM distal and 27.6 cM distal from the AM gene, while the GEM gene was mapped 18.5 cM distal from the AM gene and 9.1 cM proximal from SDC2. Orthologues of SNTB1, SDC2 and GEM were syntenic to human chromosome 8q. SNTB1, SDC2 and GEM did not correspond to the AM gene locus, suggesting it is unlikely they are related to chicken muscular dystrophy. However, this result also suggests that the genes located in the proximal region of the CALB1 gene on human chromosome 8q are possible candidates for this disease.

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Linkage mapping of four chicken calpain genes

Okumura

Shimogiri

Shinbo

et al. 2005

Animal Science Journal

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Calpains are intracellular Ca 2 + -dependent proteases and enzymes that contribute to growth and meat quality. In the present study, we identified polymorphisms in four calpain genes ( CAPN1 , CAPN2 , CAPN3 , and CAPN1.5 ) expressed ubiquitously in chicken using polymerase chain reaction-restriction fragment length polymorphism, and mapped them using two backcross families (East Lansing (EL) and Kobe University (KU)). CAPN2 and CAPN1.5 mapped to two locations on chromosome 3 about 30 cM apart, while CAPN3 mapped to chromosome 5. CAPN1 was linked to a previously unlinked microsatellite marker LEI0140 to form a new linkage group called E66. CAPN2 and CAPN3 extend the amount of conserved synteny between chicken chromosome 3 and human chromosome 1, and between chicken chromosome 5 and human chromosome 15, respectively. Although CAPN2 , CAPN3 , and CAPN1.5 were found in the University of California Santa Cruz chicken genome browser gateway, CAPN1 and LEI0140 were not in specific genomic positions.

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K. Yoshizawa

Localization of the muscular dystrophy AM locus using a chicken linkage map constructed with the Kobe University resource family

The ubiquitin ligase gene (WWP1) is responsible for the chicken muscular dystrophy

Breed Discrimination Using DNA Markers Derived from AFLP in Japanese Beef Cattle

Analyses of Beta-1 Syntrophin, Syndecan 2 and Gem GTPase as Candidates for Chicken Muscular Dystrophy

Linkage mapping of four chicken calpain genes

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