Human N-myc is closely related in organization and nucleotide sequence to c-myc

Kohl, Nancy E.; Legouy, Edith; DePinho, Ronald A.; Nisen, Perry D.; Smith, Ryan J.; Gee, Connie E.; Alt, Frederick W.

doi:10.1038/319073a0

Cited by 243 publications

(169 citation statements)

References 54 publications

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“…The probes for detecting the ALK genome were prepared using the RT -PCR product (843 bp fragment) encoded the juxtamembrane segment of the ALK cDNA (3938 -4781) . The probe for the N-myc gene was prepared from the 2 kb BglII-EcoRI fragment of the genomic clone, pN-myc2238, kindly provided by Dr Y Taya, which was to detect 3.8 kb of the genomic N-myc DNA digested by EcoRI (Kohl et al, 1986;Stanton et al, 1986). As a control we used the probe for detecting ShcC gene, that was obtained by digesting pCMV1-T7N-Shc, human ShcC cDNA, kindly provided by Nakamura et al (1996b).…”

Section: Dna Extraction and Southern Blottingmentioning

confidence: 99%

Activation of anaplastic lymphoma kinase is responsible for hyperphosphorylation of ShcC in neuroblastoma cell lines

Hakomori²,

et al. 2002

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Section: Dna Extraction and Southern Blottingmentioning

confidence: 99%

Activation of anaplastic lymphoma kinase is responsible for hyperphosphorylation of ShcC in neuroblastoma cell lines

Hakomori²,

et al. 2002

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“…Members of this family include the well-characterized c-myc and N-myc genes and the more recently described L-myc gene (1,2,8,12). All three members have similar overall structures, consisting of three exons with extensive areas of homology in the protein-coding regions of exons 2 and 3.…”

mentioning

confidence: 99%

L-myc cooperates with ras to transform primary rat embryo fibroblasts.

Birrer¹,

Segal²,

DeGreve³

et al. 1988

Mol. Cell. Biol.

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Recent molecular analysis has revealed that L-myc has several domains of extremely conserved anino acid sequence homology with c-myc and N-myc, suggesting similarity of function. We tested the biologic activity of L-myc by using an expression vector containing a cDNA clone coding for the major open reading frame in the 3.9-kilobase mRNA of L-myc under the control of a strong promoter (Moloney long terminal repeat) and found that L-myc complemented an activated ras gene in transforming primary rat embryo fibroblasts. However, the efficiency of transformation was 1 to 10% of that seen with the c-myc and simian virus 40 (SV40) controls. The L-myc/ras transformants initially grew more slowly than c-myc or SV40 transformants, but once established as continuous cell lines, they were indistinguishable from cell lines derived from c-myc/ras or SV40/ras transfectants as determined by morphology, soft-agar cloning, and tumorigenicity in nude mice.

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“…Overall homology of the deduced amino acid sequences is 32%, and distinct regions throughout the proteins are nearly identical (6,43,50). Interestingly, even the nonhomologous coding regions are highly conserved between the human and mouse N-myc genes, which show an overall homology of over 85% (13,23,50,51). This suggests that the two genes perform similar but not identical functions.…”

mentioning

confidence: 65%

“…Three ATG codons were identified at the 5' end of the single long open reading frame of N-myc. The first of these ATGs was suggested to function as a translational initiation codon, since this codon and the downstream coding sequence were conserved in human and murine N-myc (23). Alternatively, the second ATG was regarded as the most likely initiation codon (50) because it was in the best sequence context conforming to established sites of translational initiation (27).…”

Section: Discussionmentioning

confidence: 99%

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Two N-myc polypeptides with distinct amino termini encoded by the second and third exons of the gene.

Mäkelä¹,

Saksela²,

Alitalo³

1989

Mol. Cell. Biol.

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The N-myc and c-myc genes encode closely related nuclear phosphoproteins. We found that the N-myc protein from human tumor cell lines appears as four closely migrating polypeptide bands (p58 to p64) in sodium dodecyl sulfate-polyacrylamide gels. This and the recent finding that the c-myc protein is synthesized from two translational initiation sites located in the first and second exons of the gene (S. R. Hann, M. W. King, D. L. Bentley, C. W. Anderson, and R. N. Eisenman, Cell 52:185-195, 1988) prompted us to study the molecular basis of the N-myc protein heterogeneity. Dephosphorylation by alkaline phosphatase reduced the four polypeptide bands to a doublet with an electrophoretic mobility corresponding to the two faster-migrating N-myc polypeptides (p58 and p60). When expressed transiently in COS cells, an N-myc deletion construct lacking the first exon produced polypeptides similar to the wild-type N-myc protein, indicating that the first exon of the N-myc gene is noncoding. Furthermore, mutants deleted of up to two thirds of C-terminal coding domains still retained the capacity to produce a doublet of polypeptides, suggesting distinct amino termini for the two N-myc polypeptides. The amino-terminal primary structure of the N-myc protein was studied by site-specific point mutagenesis of the 5' end of the long open reading frame and by N-terminal radiosequencing of the two polypeptides. Our results show that the N-myc polypeptides are initiated from two alternative in-phase AUG codons located 24 base pairs apart at the 5' end of the second exon. Both of these polypeptides are phosphorylated and localized to the nucleus even when expressed separately. Interestingly, DNA rearrangements activating the c-myc gene are often found in the 1.7-kilobase-pair region between the two c-myc translational initiation sites and correlate with the loss of the longer c-myc polypeptide. Thus the close spacing of the two N-myc initiation codons could explain the relative resistance of the N-myc gene to similar modes of oncogenic activation.The N-myc gene was originally identified as an amplified DNA fragment from human neuroblastomas on the basis of its homology to the v-myc oncogene (43). The N-myc gene is closely related to the more extensively investigated c-myc gene: both contain three exons, with long 5' and 3' untranslated regions, and a predicted single long open reading frame beginning with an ATG codon in the second exon. Overall homology of the deduced amino acid sequences is 32%, and distinct regions throughout the proteins are nearly identical (6,43,50). Interestingly, even the nonhomologous coding regions are highly conserved between the human and mouse N-myc genes, which show an overall homology of over 85% (13,23,50,51). This suggests that the two genes perform similar but not identical functions. In line with such

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Human N-myc is closely related in organization and nucleotide sequence to c-myc

Cited by 243 publications

References 54 publications

Activation of anaplastic lymphoma kinase is responsible for hyperphosphorylation of ShcC in neuroblastoma cell lines

Activation of anaplastic lymphoma kinase is responsible for hyperphosphorylation of ShcC in neuroblastoma cell lines

L-myc cooperates with ras to transform primary rat embryo fibroblasts.

Two N-myc polypeptides with distinct amino termini encoded by the second and third exons of the gene.

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