Christianne Schoedel scite author profile

Observations about the natural history of aging in Cornelia de Lange syndrome (CdLS) are made, based on 49 patients from a multidisciplinary clinic for adolescents and adults. The mean age was 17 years. Although most patients remain small, obesity may develop. Gastroesophageal reflux persists or worsens, and there are early long-term sequelae, including Barrett esophagus in 10%; other gastrointestinal findings include risk for volvulus, rumination, and chronic constipation. Submucous cleft palate was found in 14%, most undetected before our evaluation. Chronic sinusitis was noted in 39%, often with nasal polyps. Blepharitis improves with age; cataracts and detached retina may occur. Decreased bone density is observed, with occasional fractures. One quarter have leg length discrepancy and 39% scoliosis. Most females have delayed or irregular menses but normal gynecologic exams and pap smears. Benign prostatic hypertrophy occurred in one male prior to 40 years. The phenotype is variable, but there is a distinct pattern of facial changes with aging. Premature gray hair is frequent; two patients had cutis verticis gyrata. Behavioral issues and specific psychiatric diagnoses, including self-injury, anxiety, attention-deficit disorder, autistic features, depression, and obsessive-compulsive behavior, often worsen with age. This work presents some evidence for accelerated aging in CdLS. Of 53% with mutation analysis, 55% demonstrate a detectable mutation in NIPBL or SMC1A. Although no specific genotype-phenotype correlations have been firmly established, individuals with missense mutations in NIPBL and SMC1A appear milder than those with other mutations. Based on these observations, recommendations for clinical management of adults with CdLS are made.

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Extracellular secretion of pectate lyase by the Erwinia chrysanthemi out pathway is dependent upon Sec-mediated export across the inner membrane

Schoedel

Chatterjee

et al. 1991

J Bacteriol

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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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Evidence of homology between the pectate lyase-encoding pelB and pelC genes in Erwinia chrysanthemi

Schoedel¹,

Collmer²

1986

J Bacteriol

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The genes for two of several pectate lyase isozymes produced by the phytopathogenic enterobacterium Erwinia chrysanthemi 1237 were subcloned and compared by DNA-DNA hybridization, and the encoded proteins were analyzed. The borders of the genes were located on a restriction map by incremental exonuclease III deletions. DNA-DNA hybridization studies revealed a low percentage of mismatch (7 to 17%) between pelB and peiC. No homology was detected between pelC and other regions of the E. chrysanthemi 1237 chromosome, in which three other isozyme genes apparently reside. The pectate lyase isozymes were readily purified by chromatofocusing or granulated-gel bed isoelectric focusing from the periplasmic shock fluids of Escherichia coli subclones. The molecular weights of PLb and PLc were 30,000 and 33,000 as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Their isoelectric points were 7.6 and 8.1, respectively, as determined by equilibrium isoelectric focusing in ultrathin polyacrylamide gels. The Km values for PLb and PLc were 0.20 and 0.32 mg/ml, respectively, with polygalacturonate as a substrate. Thin-layer chromatography of reaction products and viscometric assays revealed little difference between the two isozymes. All our data indicate that the genes are duplicates and that the proteins are isofunctional.

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Multiplication and Virulence in Plant Tissues of Escherichia coli Clones Producing Pectate Lyase Isozymes PLb and PLe at High Levels and of an Erwinia chrysanthemi Mutant Deficient in PLe

Payne

Schoedel

Keen

et al. 1987

Appl Environ Microbiol

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The phytopathogenic enterobacterium Erwinia chrysanthemi strain EC16 produces four isozymes of pectate lyase (PL), an extracellular enzyme that macerates parenchymatous plant tissues and kills plant cells. A 1.8-kilobase EcoRI DNA fragment containing the entire pelE gene was deleted from the E. chrysanthemi chromosome by marker exchange of a cloned fragment that had been modified in vitro. The resulting mutant, UM1001, produced the isozymes PLa, PLb, and PLc, but not PLe. Mutant UM1001 was compared with wild-type E. chrysanthemi, with Escherichia coli JA221, and with JA221 containing expression vectors with cloned pel genes producing high levels of PLe (pPEL748) or PLb (pPEL343) for the ability to multiply and cause symptoms in intact potato tubers. Tubers were injected with less than 100 bacteria per inoculation site and incubated aerobically or anaerobically. While maceration occurred only in anaerobically incubated tubers, all of the bacteria, including nonpectolytic E. coli controls, multiplied substantially under all conditions. E. coli JA221(pPEL748) caused significantly more maceration than E. coli JA221(pPEL343) or wild-type E. chrysanthemi. Mutant UM1001 caused significantly less maceration than the wild-type E. chrysanthemi. The results establish the importance of PLe in the pectolytic arsenal of E. chrysanthemi by demonstrating that production of PLe can enable E. coli to aggressively macerate tuber tissue and that deletion ofpelE significantly diminishes the virulence of E. chrysanthemi.

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