SRC Gene | ScienceGate

The products of the viral and cellular src genes, p60v-src and p60c-src, appear to be composed of multiple functional domains. Highly conserved regions called src homology 2 and 3 (SH2 and SH3), comprising amino acid residues 88 to 250, are believed to modulate the protein-tyrosine kinase activity present in the carboxy-terminal halves of the src proteins. To explore the functions of these regions more fully, we have made 34 site-directed mutations in a transformation-competent c-src gene encoding phenylalanine in place of tyrosine 527 (Y527F c-src). Twenty of the new mutations change only one or two amino acids, and the remainder delete small or large portions of the SH2-SH3 region. These mutant alleles have been incorporated into a replication-competent Rous sarcoma virus vector to examine the biochemical and biological properties of the mutant proteins after infection of chicken embryo fibroblasts. Four classes of mutant proteins were observed: class 1, mutants with only slight differences from the parental gene products; class 2, mutant proteins with diminished transforming and specific kinase activities; class 3, mutant proteins with normal or enhanced specific kinase activity but impaired biological activity, often as a consequence of instability; and class 4, mutant proteins with augmented biological and catalytic activities. In general, there was a strong correlation between total kinase activity (or amounts of intracellular phosphotyrosine-containing proteins) and transforming activity. Deletion mutations and some point mutations affecting residues 109 to 156 inhibited kinase and transforming functions, whereas deletions affecting residues 187 to 226 generally had positive effects on one or both of those functions, confirming that SH2-SH3 has complex regulatory properties. Five mutations that augmented the transforming and kinase activities of Y527F c-src [F172P, R175L, delta(198-205), delta(206-226), and delta(176-226)] conferred transformation competence on an otherwise normal c-src gene, indicating that mutations in SH2 (like previously described lesions in SH3, the kinase domain, and a carboxy-terminal inhibitory domain) can activate c-src.

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Identification of a novel neuronal C-SRC exon expressed in human brain

Molecular and Cellular Biology ◽

10.1128/mcb.10.5.2035-2040.1990 ◽

1990 ◽

Vol 10 (5) ◽

pp. 2035-2040

Author(s):

J M Pyper ◽

J B Bolen

Keyword(s):

Amino Acids ◽

Human Brain ◽

Phosphorylation Site ◽

Fetal Brain ◽

Serine Residue ◽

Developmentally Regulated ◽

Site Analysis ◽

Rna Transcripts ◽

Splicing Pattern ◽

Src Gene

Neuronal cells are known to express at least two different forms of the C-SRC proto-oncogene as a consequence of alternative splicing events which add an 18-nucleotide exon (the NI exon) between C-SRC exons 3 and 4. Here we report that a second neuronal exon of C-SRC is also present between C-SRC exons 3 and 4. This neuronal exon (the NII exon) of C-SRC was isolated from human adult and fetal brain-derived cDNAs and contains 33 nucleotides capable of encoding 11 amino acids (Gln-Thr-Trp-Phe-Thr-Phe-Arg-Trp-Leu-Gln-Arg). The human NI exon was located approximately 390 nucleotides from the end of C-SRC exon 3, whereas the NII exon was approximately 1,000 nucleotides from the beginning of C-SRC exon 4. Analysis of human brain RNA revealed that the NII exon is utilized primarily in conjunction with the NI exon to yield transcripts capable of encoding C-SRC products possessing 17 additional amino acids. These splicing events, which occur between the NI and NII exons, are predicted to alter the sixth amino acid encoded by the NI exon from an arginine to a serine residue, producing a potentially novel phosphorylation site. Analysis of the different C-SRC RNA transcripts revealed that the level of C-SRC RNA containing both NI and NII exons is similar in adult and fetal brain tissue, whereas the level of C-SRC RNA containing only the NI exon or the nonneuronal form of C-SRC RNAs is significantly higher in fetal brain tissues. These results indicate that the expression and splicing pattern of the C-SRC gene are developmentally regulated in the human brain.

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Gene regulation by tyrosine kinases: src protein activates various promoters, including c-fos

Molecular and Cellular Biology ◽

10.1128/mcb.9.6.2493-2499.1989 ◽

1989 ◽

Vol 9 (6) ◽

pp. 2493-2499

Author(s):

M Fujii ◽

D Shalloway ◽

I M Verma

Keyword(s):

Tyrosine Kinase ◽

Tyrosine Kinases ◽

Kinase Activity ◽

Cellular Transformation ◽

Membrane Association ◽

Protein Tyrosine Phosphorylation ◽

Promoter Activation ◽

Tyrosine Kinase Activity ◽

Atp Binding Site ◽

Src Gene

A promoter of the nuclear proto-oncogene fos was activated by cotransfection with the viral src gene. Ability to transactivate the c-fos promoter was dependent on tyrosine kinase activity, because (i) src mutants which have reduced tyrosine kinase activity due to mutation of Tyr-416 to Phe showed lower promoter activation, (ii) pp60c-src mutants which have increased tyrosine kinase activity due to mutation of Tyr-527 to Phe also augmented c-fos promoter induction, and (iii) mutation in the ATP-binding site of pp60v-src strongly suppressed c-fos promoter activation. Tyrosine kinase activity alone, however, was not sufficient for promoter activation, because of pp60v-src mutant which lacked its myristylation site and consequently membrane association showed no increased c-fos promoter activation. Both the tyrosine kinase- and membrane-association-defective mutants were also unable to induce transformation. Therefore, phosphorylation of membrane-associated substrates appears to be required for both gene expression and cellular transformation by the src protein. Two regions of the c-fos promoter located between positions -362 and -324 and positions -323 and -294 were responsive to src stimulation. We believe that protein tyrosine phosphorylation represents an important step of signal transduction from the membrane to the nucleus.

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Transformation by viral and cellular oncogenes of a mouse BALB/3T3 cell mutant resistant to transformation by chemical carcinogens

Molecular and Cellular Biology ◽

10.1128/mcb.8.10.4190-4196.1988 ◽

1988 ◽

Vol 8 (10) ◽

pp. 4190-4196

Author(s):

M Ono ◽

M Yakushinji ◽

K Segawa ◽

M Kuwano

Keyword(s):

Mouse Cell ◽

T Antigen ◽

3T3 Cells ◽

Chemical Carcinogens ◽

Membrane Function ◽

Rous Sarcoma ◽

Src Gene ◽

Active Expression ◽

Sarcoma Virus ◽

Polyomavirus Middle T Antigen

The mouse cell line MO-5 is resistant to transformation by various chemical carcinogens and also by UV irradiation (C. Yasutake, Y. Kuratomi, M. Ono, S. Masumi, and M. Kuwano, Cancer Res. 47:4894-4899, 1987). Northern (RNA) blot analysis showed active expression of ras and myc genes in MO-5 and BALB/3T3 cells. The effect of transfection of various oncogenes on transformation was compared in MO-5 cells and parental BALB/3T3 cells. Activated c-H-ras, c-N-ras, and v-mos gene induced transformation foci of MO-5 and BALB/3T3. Introduction of the polyomavirus middle T-antigen (mTag) or the Rous sarcoma virus-related oncogene v-src, however, efficiently transformed BALB/3T3 but not MO-5 cells. Expression and phosphorylation of mTag and the associated c-src proteins were observed in mTag-transfected clones of MO-5 as in BALB/3T3 and phosphorylation of the src protein was observed in v-src-transfected BALB/3T3 and MO-5 clones. Hybrids between mTag- or v-src-induced transformants of BALB/3T3 and untransformed MO-5 maintained the transformation phenotype, suggesting that no dominant suppressor of transformation exists in MO-5. A hybrid clone between BALB/3T3 and MO-5 induced efficient transformation foci after transfection with the mTag gene, suggesting that the deficient transformation phenotype of MO-5 was recessive. Instead, some other alteration of MO-5, plausibly membrane function, might lead to abortive transformation by chemical carcinogens and also by mTag and the v-src gene product.

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Amino acid substitutions sufficient to convert the nontransforming p60c-src protein to a transforming protein

Molecular and Cellular Biology ◽

10.1128/mcb.6.12.4155-4160.1986 ◽

1986 ◽

Vol 6 (12) ◽

pp. 4155-4160

Author(s):

J Y Kato ◽

T Takeya ◽

C Grandori ◽

H Iba ◽

J B Levy ◽

...

Keyword(s):

Amino Acid ◽

Biological Activities ◽

Tumor Formation ◽

Protein Kinase Activity ◽

Focus Formation ◽

Rous Sarcoma ◽

Src Gene ◽

Cellular Homolog ◽

Sarcoma Virus ◽

Hybrid Genes

We have previously shown that Rous sarcoma virus variants that carry the cellular homolog (c-src) of the viral src gene (v-src) do not transform chicken embryo fibroblasts. We also have shown that replacement of sequences upstream or downstream from the BglI site of the cellular src gene with the corresponding regions of v-src restored transforming activity to the hybrid genes. Since there are only six amino acid changes between p60c-src and p60v-src within the sequences upstream from BglI, we constructed chimeric molecules involving v-src and c-src to determine the effect of each amino acid substitution on the biological activities of the gene product. We found that the change from Thr to Ile at position 338 or the replacement of a fragment of c-src containing Gly-63, Arg-95, and Thr-96 with a corresponding fragment of v-src containing Asp-63, Trp-95, and Ile-96 converted p60c-src into a transforming protein by the criteria of focus formation, anchorage-independent growth, and tumor formation in newborn chickens. These mutations also resulted in elevation of the protein kinase activity of p60c-src.

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Functional domains of the pp60v-src protein as revealed by analysis of temperature-sensitive Rous sarcoma virus mutants

Molecular and Cellular Biology ◽

10.1128/mcb.4.8.1508-1514.1984 ◽

1984 ◽

Vol 4 (8) ◽

pp. 1508-1514

Author(s):

A W Stoker ◽

P J Enrietto ◽

J A Wyke

Keyword(s):

Rous Sarcoma Virus ◽

Kinase Activity ◽

Temperature Sensitive ◽

Tyrosine Kinase Activity ◽

Rous Sarcoma ◽

Heat Labile ◽

Src Gene ◽

Sarcoma Virus

Four temperature-sensitive (ts) Rous sarcoma virus src gene mutants with lesions in different parts of the gene represent three classes of alteration in pp60src. These classes are composed of mutants with (i) heat-labile protein kinase activities both in vitro and in vivo (tsLA27 and tsLA29), (ii) heat-labile kinases in vivo but not in vitro (tsLA33), and (iii) neither in vivo nor in vitro heat-labile kinases (tsLA32). The latter class indicates the existence of structural or functional pp60src domains that are required for transformation but do not grossly affect tyrosine kinase activity.

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Regulation of Junctional Intercellular Communication by Tyrosine-Protein Kinases. Role of the Cellular Src Gene and Growth Factor Receptors

Cell Membrane Transport ◽

10.1007/978-1-4757-9601-8_21 ◽

1991 ◽

pp. 425-436

Author(s):

Werner R. Loewenstein

Keyword(s):

Growth Factor ◽

Protein Kinases ◽

Intercellular Communication ◽

Growth Factor Receptors ◽

Src Gene

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