Carolyn Robbins scite author profile

Carolyn Robbins

5Publications

100Citation Statements Received

25Citation Statements Given

How they've been cited

189

How they cite others

Affiliations

University of California System, University of California, San Francisco, University of British Columbia

Publications

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A transcript map of the Down syndrome critical region on chromosome 21

et al. 1994

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A catalogue of the genes encoded by chromosome 21 would provide a framework for assigning roles in the etiology of Down syndrome (DS) to individual genes. We have begun generating such a catalogue, starting with a 1.2 Mb region surrounding the marker D21S55. Our efforts utilized the yeast artificial chromosome (YAC) and cosmid-clone based high resolution physical maps that we have constructed of this region. Direct-selection of fetal brain cDNAs with YAC DNA was used to isolate transcribed sequences. The selected cDNA fragments were analyzed by limited DNA sequence analysis, Northern blot hybridization and screening of cDNA libraries. The cDNA fragments were assigned positions on the physical map by hybridization to a collection of cosmid clones. The accurate determination of map positions for individual cDNA fragments allowed us to determine sources of variability in the cDNA selection procedure. The combined analysis and mapping was used to estimate the completeness of our mapping efforts and to identify procedures that would facilitate large-scale transcript mapping. The transcribed sequence map that we have assembled will allow the importance to DS of genes in this region to be examined and will aid in the design of strategies for larger scale efforts.

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Characterization and organization of DNA sequences adjacent to the human telomere associated repeat (TTAGGG)_n

Weber¹,

Robbins²,

Magenis

et al. 1990

Nucl Acids Res

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We present a strategy for the cloning of DNA sequences adjacent to the tandemly repeated DNA sequence (TTAGGG)n. Sequence analysis of 14 independently isolated clones revealed the presence of non-repetitive sequences immediately adjacent to or flanked by blocks of the simple repeat (TTAGGG)n. In addition, we provide sequence information on two previously undescribed tandemly repeated sequences, including a 9 bp repeat and a modification of the

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Non-random association between alleles detected at D4S95 and D4S98 and the Huntington's disease gene.

Theilmann

Kanani

Shiang

et al. 1989

Journal of Medical Genetics

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Construction of cosmid contigs and high-resolution restriction mapping of the Huntington disease region of human chromosome 4

et al. 1993

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The gene responsible for Huntington disease (HD) has been localized to a 2.2 million base pair (Mbp) region between the loci D4S10 and D4S98 on the short arm of human chromosome 4. As part of a strategy originally designed to clone the gene based on its chromosomal location, we and others previously identified overlapping yeast artificial chromosome (YAC) clones covering most of this region. While these YAC clones were useful for initially obtaining long-range clone continuity, a number of features of the YACs indicated that smaller clones are generally more useful in the subsequent steps of the positional cloning strategy. In this paper, we use these YAC clones to generate sets of overlapping cosmid clones covering most of the HD region. We isolated a large number of cosmids by screening a chromosome 4-specific cosmid library with labeled DNA from a minimal overlapping set of YAC clones. These cosmid clones were further analyzed by restriction mapping and hybridization experiments, leading to the assembly of 185 cosmids into eleven contigs covering more than 1.65 Mbp and to a fine-structure restriction map of the region. Nine of these contigs cover 90 percent of the 1.7 Mbp subregion between loci D4S125 and D4S98 where the HD gene is now known to lie. The detailed restriction map and the cosmid clones should facilitate the identification and localization of cDNAs and polymorphic markers, and they provide reagents for large scale DNA sequencing of this region of the human genome. Our results suggest that this strategy should be generally useful for converting YAC clones into cosmid contigs and generating high-resolution restriction maps of genomic regions of interest.

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Cloning of the Huntington disease region in yeast artificial chromosomes

et al. 1992

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The gene responsible for Huntington disease has been localized to a 2.5 million base pair (Mb) region between the loci D4S10 and D4S168 on the short arm of chromosome 4. As part of a strategy to clone the HD gene on the basis of its chromosomal location, we isolated genomic DNA from the HD region as a set of overlapping yeast artificial chromosome (YAC) clones. Twenty-eight YAC clones were identified by screening human YAC libraries with twelve PCR-based sequence-tagged sites (STSs) from the region. We assembled the YAC clones into overlapping sets by hybridizing them to a large number of DNA probes from the HD region, including the STSs. In addition, we isolated the ends of the human DNA inserts of most of the YAC clones to assist in the construction of the contig. Although almost half of the YACs appear to contain chimeric inserts and several contain internal deletions or other rearrangements, we were able to obtain over 2.2 Mb of the HD region in YACs, including one continuous segment of 2.0 Mb covering the region that most likely contains the HD gene. Ten of the twenty eight YAC clones comprise a minimal set spanning the 2.2 Mb. These clones provide reagents for the complete characterization of this region of the genome and for the eventual isolation of the HD gene.

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Carolyn Robbins

A transcript map of the Down syndrome critical region on chromosome 21

Characterization and organization of DNA sequences adjacent to the human telomere associated repeat (TTAGGG)_n

Non-random association between alleles detected at D4S95 and D4S98 and the Huntington's disease gene.

Construction of cosmid contigs and high-resolution restriction mapping of the Huntington disease region of human chromosome 4

Cloning of the Huntington disease region in yeast artificial chromosomes

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About

Carolyn Robbins

A transcript map of the Down syndrome critical region on chromosome 21

Characterization and organization of DNA sequences adjacent to the human telomere associated repeat (TTAGGG)n

Non-random association between alleles detected at D4S95 and D4S98 and the Huntington's disease gene.

Construction of cosmid contigs and high-resolution restriction mapping of the Huntington disease region of human chromosome 4

Cloning of the Huntington disease region in yeast artificial chromosomes

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Product

Resources

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Characterization and organization of DNA sequences adjacent to the human telomere associated repeat (TTAGGG)_n