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Cloning, Characterization, and Copy Number of the Murine Survival Motor Neuron Gene: Homolog of the Spinal Muscular Atrophy-Determining Gene

DiDonato, Christine J. ; Chen, Xiao-Ning ; Noya, David ; [et al.]

Cold Spring Harbor Laboratory ; 1997

In: Genome Research Vol. 7, No. 4 ( 1997-04-01), p. 339-352

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In: Genome Research, Cold Spring Harbor Laboratory, Vol. 7, No. 4 ( 1997-04-01), p. 339-352

Abstract: Because of a 500-kb inverted duplication, there are two copies of the survival motor neuron (SMN) gene in humans, cenSMN and telSMN. Both genes produce identical ubiquitously expressed transcripts; however, only mutations in telSMN are responsible for spinal muscular atrophy (SMA), the second most common autosomal recessive childhood disease. We have cloned the murine homolog Smn and mapped the gene to Chromosome 13 within the conserved syntenic region of human chromosome 5q13. We show that the Smn transcript (1.4 kb) is expressed as early as embryonic day 7. In contrast to humans, we found no evidence of alternative splicing. The predicted amino acid sequence between mouse and human SMN is 82% identical, and a putative nuclear localization signal is conserved. FISH data indicate that the duplication of the SMA region observed in humans is not present in the mouse. We also found no evidence of multiple Smn genes using Southern blot hybridization and single-strand conformation analysis. Using these methods, we detected at least four copies of Naip exon 5 clustering distal to Smn . Finally, three biallelic markers were identified within the Smn coding region; two are silent polymorphisms, whereas the third changes a cysteine residue to a tyrosine residue in exon 7. Overall, our results indicate that Smn is single copy within the mouse genome, which should facilitate gene disruption experiments to create an animal model of SMA. [The murine Smn cDNA sequence has been submitted to GenBank under accession no. U77714 . The Mouse Genome Database accession no. for FISH mapping of Smn and Naip is MGD-INEX-31 and for the genetic mapping of the Smn exon 2b microsatellite marker is MGD-CREX-705.]

Type of Medium: Online Resource

ISSN: 1088-9051 , 1549-5469

URL: Article

DOI: 10.1101/gr.7.4.339

RVK:

XA 10000

Language: English

Publisher: Cold Spring Harbor Laboratory

Publication Date: 1997

detail.hit.zdb_id: 1483456-X

SSG: 12

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Mouse Molecular Cytogenetic Resource: 157 BACs Link the Chromosomal and Genetic Maps

Korenberg, Julie R. ; Chen, Xiao-Ning ; Devon, Keri L. ; [et al.]

Cold Spring Harbor Laboratory ; 1999

In: Genome Research Vol. 9, No. 5 ( 1999-05-01), p. 514-523

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In: Genome Research, Cold Spring Harbor Laboratory, Vol. 9, No. 5 ( 1999-05-01), p. 514-523

Abstract: We have established a collection of strong molecular cytogenetic markers that span the mouse autosomes and X chromosome at an average spacing of one per 19 Mb and identify 127 distinct band landmarks. In addition, this Mouse Molecular Cytogenetic Resource relates the ends of the genetic maps to their chromosomal locations. The resource consists of 157 bacterial artificial chromosome (BAC) clones, each of which identifies specific mouse chromosome bands or band borders, and 42 of which are linked to genetic markers that define the centromeric and telomeric ends of the Whitehead/MIT recombinational maps. In addition, 108 randomly selected and 6 STS-linked BACs have been assigned to single chromosome bands. We have also developed a high-resolution fluorescent reverse-banding technique for mouse chromosomes that allows simultaneous localization of probes by fluorescence in situ hybridization (FISH) with respect to the cytogenetic landmarks. This approach integrates studies of the entire mouse genome. Moreover, these reagents will simplify gene mapping and analyses of genomic fragments in fetal and adult mouse models. As shown with the MMU16 telomeric marker for the trisomy 16 mouse model of Down syndrome, these clones can obviate the need for metaphase analyses. The potential contribution of this resource and associated methods extends well beyond mapping and includes clues to understanding mouse chromosomes and their rearrangements in cancers and evolution. Finally it will facilitate the development of an integrated view of the mouse genome by providing anchor points from the genetic to the cytogenetic and functional maps of the mouse as we attempt to understand mutations, their biological consequences, and gene function.

Type of Medium: Online Resource

ISSN: 1088-9051 , 1549-5469

URL: Article

DOI: 10.1101/gr.9.5.514

RVK:

XA 10000

Language: English

Publisher: Cold Spring Harbor Laboratory

Publication Date: 1999

detail.hit.zdb_id: 1483456-X

SSG: 12

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Human Genome Anatomy: BACs Integrating the Genetic and Cytogenetic Maps for Bridging Genome and Biomedicine

Korenberg, Julie R. ; Chen, Xiao-Ning ; Sun, Zhiguang ; [et al.]

Cold Spring Harbor Laboratory ; 1999

In: Genome Research Vol. 9, No. 10 ( 1999-10-01), p. 994-1001

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In: Genome Research, Cold Spring Harbor Laboratory, Vol. 9, No. 10 ( 1999-10-01), p. 994-1001

Abstract: Human genome sequencing is accelerating rapidly. Multiple genome maps link this sequence to problems in biology and clinical medicine. Because each map represents a different aspect of the structure, content, and behavior of human chromosomes, these fundamental properties must be integrated with the genome to understand disease genes, cancer instability, and human evolution. Cytogenetic maps use 400–850 visible band landmarks and are the primary means for defining prenatal defects and novel cancer breakpoints, thereby providing simultaneous examination of the entire genome. Recent genetic, physical, and transcript maps use PCR-based landmarks called sequence-tagged sites (STSs). We have integrated these genome maps by anchoring the human cytogenetic to the STS-based genetic and physical maps with 1021 STS–BAC pairs at an average spacing of ∼1 per 3 Mb. These integration points are represented by 872 unique STSs, including 642 polymorphic markers and 957 bacterial artificial chromosomes (BACs), each of which was localized on high resolution fluorescent banded chromosomes. These BACs constitute a resource that bridges map levels and provides the tools to seamlessly translate questions raised by genomic change seen at the chromosomal level into answers based at the molecular level. We show how the BACs provide molecular links for understanding human genomic duplications, meiosis, and evolution, as well as reagents for conducting genome-wide prenatal diagnosis at the molecular level and for detecting gene candidates associated with novel cancer breakpoints.

Type of Medium: Online Resource

ISSN: 1088-9051 , 1549-5469

URL: Article

DOI: 10.1101/gr.9.10.994

RVK:

XA 10000

Language: English

Publisher: Cold Spring Harbor Laboratory

Publication Date: 1999

detail.hit.zdb_id: 1483456-X

SSG: 12

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Physical and Comparative Mapping of Distal Mouse Chromosome 16

Cabin, Deborah E. ; McKee-Johnson, Jennifer W. ; Matesic, Lydia E. ; [et al.]

Cold Spring Harbor Laboratory ; 1998

In: Genome Research Vol. 8, No. 9 ( 1998-09-01), p. 940-950

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In: Genome Research, Cold Spring Harbor Laboratory, Vol. 8, No. 9 ( 1998-09-01), p. 940-950

Abstract: Distal mouse Chromosome 16 (Chr. 16) includes a region of conserved linkage with human Chromosome 21 (Chr. 21). Mouse models of Down syndrome based on trisomy of distal Chr. 16 have several phenotypes similar to those seen in human patients and have proven useful for correlating dosage imbalance of specific genes with specific developmental anomalies. The degree to which such findings can be related to Down syndrome depends on how well the conserved synteny is maintained. Twenty-four genes have been mapped in both species and there are no discordancies, but the region could carry hundreds of genes. Comparative sequence represents the ultimate comparative map and will aid in identification of genes and their regulatory sequences. A physical map of the distal 4.5 Mb of Chr. 16 has been assembled as an essential step toward a map of sequence-ready templates. The map consists of 51 YACs and 15 BACs and includes 18 transcripts, 9 of which are mapped for the first time in mouse, and 3 of which are, for the first time, described in either species. YAC fragmentation was used to precisely localize the 49 markers on the map. Comparison of this physical map with that of the corresponding region on Chr. 21 shows conservation not only of gene order but of size in the 3 Mb from Cbr1 to Ets2; distal to Ets2, the human map is expanded. [The sequence data described in this paper have been submitted to GenBank. See Tables 1 and 2 for accession nos.]

Type of Medium: Online Resource

ISSN: 1088-9051 , 1549-5469

URL: Article

DOI: 10.1101/gr.8.9.940

RVK:

XA 10000

Language: English

Publisher: Cold Spring Harbor Laboratory

Publication Date: 1998

detail.hit.zdb_id: 1483456-X

SSG: 12

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