Alternative splicing of murine SorCS leads to two forms of the receptor that differ completely in their cytoplasmic tails.

Guido Hermey; H C Schaller

Alternative splicing of murine SorCS leads to two forms of the receptor that differ completely in their cytoplasmic tails.

Standard

Alternative splicing of murine SorCS leads to two forms of the receptor that differ completely in their cytoplasmic tails. / Hermey, Guido; Schaller, H C.

In: BBA-GENE STRUCT EXPR, Vol. 1491, No. 1-3, 1-3, 2000, p. 350-354.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review

Harvard

Hermey, G & Schaller, HC 2000, 'Alternative splicing of murine SorCS leads to two forms of the receptor that differ completely in their cytoplasmic tails.', BBA-GENE STRUCT EXPR, vol. 1491, no. 1-3, 1-3, pp. 350-354. <http://www.ncbi.nlm.nih.gov/pubmed/10760602?dopt=Citation>

APA

Hermey, G., & Schaller, H. C. (2000). Alternative splicing of murine SorCS leads to two forms of the receptor that differ completely in their cytoplasmic tails. BBA-GENE STRUCT EXPR, 1491(1-3), 350-354. [1-3]. http://www.ncbi.nlm.nih.gov/pubmed/10760602?dopt=Citation

Vancouver

Hermey G, Schaller HC. Alternative splicing of murine SorCS leads to two forms of the receptor that differ completely in their cytoplasmic tails. BBA-GENE STRUCT EXPR. 2000;1491(1-3):350-354. 1-3.

Bibtex

@article{ffe80688d4a14551b81cdeeabc5768d1,

title = "Alternative splicing of murine SorCS leads to two forms of the receptor that differ completely in their cytoplasmic tails.",

abstract = "We report the identification of a splice variant of SorCS, a member of the family of VPS10 domain containing receptors. These type I transmembrane proteins share the presence of internalization signals in their cytoplasmic tail as one common characteristic. We show that an alternatively spliced transcript of SorCS is generated by differential processing of a composite internal/terminal exon. This splice variant encodes a protein with an N-terminal VPS10 domain followed by a leucine-rich module and a transmembrane domain identical with the already described SorCS protein, but a divergent cytoplasmic tail. In contrast to the known intracellular regions of the related receptors, this splice variant contains no internalization or sorting signals.",

author = "Guido Hermey and Schaller, {H C}",

year = "2000",

language = "Deutsch",

volume = "1491",

pages = "350--354",

number = "1-3",

}

RIS

TY - JOUR

T1 - Alternative splicing of murine SorCS leads to two forms of the receptor that differ completely in their cytoplasmic tails.

AU - Hermey, Guido

AU - Schaller, H C

PY - 2000

Y1 - 2000

N2 - We report the identification of a splice variant of SorCS, a member of the family of VPS10 domain containing receptors. These type I transmembrane proteins share the presence of internalization signals in their cytoplasmic tail as one common characteristic. We show that an alternatively spliced transcript of SorCS is generated by differential processing of a composite internal/terminal exon. This splice variant encodes a protein with an N-terminal VPS10 domain followed by a leucine-rich module and a transmembrane domain identical with the already described SorCS protein, but a divergent cytoplasmic tail. In contrast to the known intracellular regions of the related receptors, this splice variant contains no internalization or sorting signals.

AB - We report the identification of a splice variant of SorCS, a member of the family of VPS10 domain containing receptors. These type I transmembrane proteins share the presence of internalization signals in their cytoplasmic tail as one common characteristic. We show that an alternatively spliced transcript of SorCS is generated by differential processing of a composite internal/terminal exon. This splice variant encodes a protein with an N-terminal VPS10 domain followed by a leucine-rich module and a transmembrane domain identical with the already described SorCS protein, but a divergent cytoplasmic tail. In contrast to the known intracellular regions of the related receptors, this splice variant contains no internalization or sorting signals.

M3 - SCORING: Zeitschriftenaufsatz

VL - 1491

SP - 350

EP - 354

IS - 1-3

M1 - 1-3

ER -