David Roeder scite author profile

Heparin-binding growth factor-1 (HBGF-1) is an angiogenic polypeptide mitogen for mesoderm- and neuroectoderm-derived cells in vitro and remains biologically active after truncation of the amino-terminal domain (HBGF-1 alpha) of the HBGF-1 beta precursor. Polymerase chain reaction mutagenesis and prokaryotic expression systems were used to prepare a mutant of HBGF-1 alpha lacking a putative nuclear translocation sequence (amino acid residues 21 to 27; HBGF-1U). Although HBGF-1U retains its ability to bind to heparin, HBGF-1U fails to induce DNA synthesis and cell proliferation at concentrations sufficient to induce intracellular receptor-mediated tyrosine phosphorylation and c-fos expression. Attachment of the nuclear translocation sequence from yeast histone 2B at the amino terminus of HBGF-1U yields a chimeric polypeptide (HBGF-1U2) with mitogenic activity in vitro and indicates that nuclear translocation is important for this biological response.

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Extension of the Life-Span of Human Endothelial Cells by an Interleukin-1αAntisense Oligomer

Maier

Voulalas

Roeder

et al. 1990

Science

382

193

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The proliferative potential of human diploid endothelial cells is finite, and cellular senescence in vitro is accompanied by the failure of the endothelial cell to respond to exogenous growth factors. Senescent human endothelial cells were shown to contain high amounts of the transcript for the cytokine interleukin-1 alpha (IL-1 alpha), a potent inhibitor of endothelial cell proliferation in vitro. In contrast, transformed human endothelial cells did not contain detectable IL-1 alpha messenger RNA. Treatment of human endothelial cell populations with an antisense oligodeoxynucleotide to the human IL-1 alpha transcript prevented cell senescence and extended the proliferative life-span of the cells in vitro. Removal of the IL-1 alpha antisense oligomer resulted in the generation of the senescent phenotype and loss of proliferative potential. These data suggest that human endothelial cell senescence in vitro is a dynamic process regulated by the potential intracellular activity of IL-1 alpha.

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Marker-exchange mutagenesis of a pectate lyase isozyme gene in Erwinia chrysanthemi

Roeder¹,

Collmer²

1985

J Bacteriol

133

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The phytopathogenic enterobacterium Erwinia chrysanthemi contains pel genes encoding several different isozymes of the plant-tissue-disintegrating enzyme pectate lyase (PL). The pelC gene, encoding an isozyme with an approximate isoelectric point of 8.0, was mutagenized by a three-step procedure involving (i) insertional inactivation of the cloned gene by ligation of a kan-containing BamHI fragment from pUC4K with a partial Sau3A digest of E. chrysanthemi pelC DNA in pBR322; (ii) mobilization of the pBR322 derivative from Escherichia coli to E. chrysanthemi by the helper plasmids R64drdll and pLVC9; and (iii) exchange recombination of the pelC::kan mutation into the E. chrysanthemi chromosome by selection for kanamycin resistance in transconjugants cultured in phosphate-limited medium (which renders pBR322 unstable). The resulting E. chrysanthemi mutant was Kanr Amps, lacked pBR322 sequences, and was deficient in only one of the four major PL isozymes, PLc, as determined by activity-stained isoelectric-focusing polyacrylamide gels. The rates of PL induction and cell growth in a medium containing polygalacturonic acid as the sole carbon source were not significantly reduced in the mutant. No difference was detected in the ability of the mutant to macerate potato tuber tissue. The evidence suggests that this isozyme is not necessary for soft-rot pathogenesis.

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Marker—Exchange Mutagenesis of the pe1B Gene in Erwinia Chrysanthemi CUCPB 1237

Roeder

Collmer

1987

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Molecular cloning in Escherichia coli of Erwinia chrysanthemi genes encoding multiple forms of pectate lyase

Collmer¹,

Schoedel²,

Roeder³

et al. 1985

J Bacteriol

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The phytopathogenic enterobacterium Erwinia chrysanthemi excretes multiple isozymes of the plant tissue-disintegrating enzyme, pectate lyase (PL). Genes encoding PL were cloned from E. chrysanthemi CUCPB 1237 into Escherichia coli HB101 by inserting Sau3A-generated DNA fragments into the BamHI site of pBR322 and then screening recombinant transformants for the ability to sink into pectate semisolid agar. Restriction mapping of the cloned DNA in eight pectolytic transformants revealed overlapping portions of a 9.8-kilobase region of the E. chrysanthemi genome. Deletion derivatives of these plasmids were used to localize the pectolytic genotype to a 2.5-kilobase region of the cloned DNA. PL gene expression in E. coli was independent of vector promoters, repressed by glucose, and not induced by galacturonan. PL accumulated largely in the periplasmic space of E. coli. An activity stain used in conjunction with ultrathin-layer isoelectric focusing resolved the PL in E. chrysanthemi culture supernatants and shock fluids of E. coli clones into multiple forms. One isozyme with an apparent pI of 7.8 was produced at a far higher level in E. coli and was common to all of the pectolytic clones. Activity staining of renatured PL in sodium dodecyl sulfate-polyacrylamide gels revealed that this isozyme comigrated with the corresponding isozyme produced by E. chrysanthemi. The PL isozyme profiles produced by different clones and deletion derivative subclones suggest that the cloned region contains at least two PL isozyme structural genes. Pectolytic E. coli clones possessed a limited ability to macerate potato tuber tissues.

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David Roeder

Recovery of Mitogenic Activity of a Growth Factor Mutant with a Nuclear Translocation Sequence

Extension of the Life-Span of Human Endothelial Cells by an Interleukin-1αAntisense Oligomer

Marker-exchange mutagenesis of a pectate lyase isozyme gene in Erwinia chrysanthemi

Marker—Exchange Mutagenesis of the pe1B Gene in Erwinia Chrysanthemi CUCPB 1237

Molecular cloning in Escherichia coli of Erwinia chrysanthemi genes encoding multiple forms of pectate lyase

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