cytidylyl-3--5--guanosine and Friedreich-Ataxia

cytidylyl-3--5--guanosine has been researched along with Friedreich-Ataxia* in 2 studies

Other Studies

2 other study(ies) available for cytidylyl-3--5--guanosine and Friedreich-Ataxia

Article	Year
Physical mapping of two loci (D9S5 and D9S15) tightly linked to Friedreich ataxia locus (FRDA) and identification of nearby CpG islands by pulse-field gel electrophoresis. Genomics, 1991, Volume: 10, Issue:4 The Friedreich's ataxia locus (FRDA) has recently been mapped to 9q13-q21 by tight linkage to D9S15 and D9S5 loci. The present lack of recombination between these loci precludes further genetic mapping and suggests that the distances involved are in the megabase range. We have established a 1-Mb map around loci D9S15 (defined by probe MCT112) and D9S5 (defined by probe DR47) and found that they are at most 260 apart. Six rare cutting site clusters were found in a 450-kb segment containing both loci. Three clusters were completely unmethylated in two cell lines tested and might correspond to CpG islands flanking transcribed sequences. Cosmid mapping of a 52-kb region around D9S5 and pulse-field gel electrophoresis analysis showed the presence of three other CpG clusters that were partially or completely methylated. Two of them were present in the cosmid clones available and were associated with sequences conserved in other vertebrate species. The CpG islands and conserved sequences presented here can be used to search for genes defective in Friedreich's ataxia. Topics: Animals; Cell Line; Chromosomes, Human, Pair 9; Cricetinae; Dinucleoside Phosphates; DNA; DNA Probes; Electrophoresis, Agar Gel; Friedreich Ataxia; Genetic Markers; Humans; Hybrid Cells; Restriction Mapping	1991
Identification of CpG islands in a physical map encompassing the Friedreich's ataxia locus. Genomics, 1991, Volume: 9, Issue:1 The Friedreich's ataxia locus has been previously assigned to chromosome 9q 13-21.1 by the demonstration of tight linkage to two anonymous DNA markers. MCT112 (Z greater than 80, theta = 0) and DR47 (Z greater than 50, theta = 0). The absence of recombination between these three loci has prevented the resolution of gene/probe order in this region, impeding strategies for gene isolation. We report physical mapping over a 4-Mb genomic interval, linking the markers MCT112 and DR47 on a common 460-kb NotI fragment and identifying 11 CpG islands in the 1.7-Mb interval most likely to contain the Friedreich's ataxia locus. Four of these islands were detected only by analysis of three YAC clones spanning a 700-kb interval including the MCT112/DR47 cluster. Without clear evidence of the precise location of the disease locus from recombination events, each of these regions must be considered as specifying a potential "candidate" sequence for the mutated gene. Topics: Chromosome Mapping; Chromosomes, Human, Pair 9; Cloning, Molecular; Dinucleoside Phosphates; Friedreich Ataxia; Humans; Restriction Mapping	1991

Article

Year

Physical mapping of two loci (D9S5 and D9S15) tightly linked to Friedreich ataxia locus (FRDA) and identification of nearby CpG islands by pulse-field gel electrophoresis.

Genomics, 1991, Volume: 10, Issue:4

The Friedreich's ataxia locus (FRDA) has recently been mapped to 9q13-q21 by tight linkage to D9S15 and D9S5 loci. The present lack of recombination between these loci precludes further genetic mapping and suggests that the distances involved are in the megabase range. We have established a 1-Mb map around loci D9S15 (defined by probe MCT112) and D9S5 (defined by probe DR47) and found that they are at most 260 apart. Six rare cutting site clusters were found in a 450-kb segment containing both loci. Three clusters were completely unmethylated in two cell lines tested and might correspond to CpG islands flanking transcribed sequences. Cosmid mapping of a 52-kb region around D9S5 and pulse-field gel electrophoresis analysis showed the presence of three other CpG clusters that were partially or completely methylated. Two of them were present in the cosmid clones available and were associated with sequences conserved in other vertebrate species. The CpG islands and conserved sequences presented here can be used to search for genes defective in Friedreich's ataxia.

Topics: Animals; Cell Line; Chromosomes, Human, Pair 9; Cricetinae; Dinucleoside Phosphates; DNA; DNA Probes; Electrophoresis, Agar Gel; Friedreich Ataxia; Genetic Markers; Humans; Hybrid Cells; Restriction Mapping

1991

Identification of CpG islands in a physical map encompassing the Friedreich's ataxia locus.

Genomics, 1991, Volume: 9, Issue:1

The Friedreich's ataxia locus has been previously assigned to chromosome 9q 13-21.1 by the demonstration of tight linkage to two anonymous DNA markers. MCT112 (Z greater than 80, theta = 0) and DR47 (Z greater than 50, theta = 0). The absence of recombination between these three loci has prevented the resolution of gene/probe order in this region, impeding strategies for gene isolation. We report physical mapping over a 4-Mb genomic interval, linking the markers MCT112 and DR47 on a common 460-kb NotI fragment and identifying 11 CpG islands in the 1.7-Mb interval most likely to contain the Friedreich's ataxia locus. Four of these islands were detected only by analysis of three YAC clones spanning a 700-kb interval including the MCT112/DR47 cluster. Without clear evidence of the precise location of the disease locus from recombination events, each of these regions must be considered as specifying a potential "candidate" sequence for the mutated gene.

Topics: Chromosome Mapping; Chromosomes, Human, Pair 9; Cloning, Molecular; Dinucleoside Phosphates; Friedreich Ataxia; Humans; Restriction Mapping

1991