Cloning of Physarum actin sequences in an exonuclease-deficient bacterial host.

Nader, Werner; Edlind, Thomas D.; Huettermann, Aloys; Sauer, Helmut W.

doi:10.1073/pnas.82.9.2698

Cited by 48 publications

(25 citation statements)

References 35 publications

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“…Therefore, subsequent walking experiments employed an EMBL3 phage library of NGP DNA sequences which allowed us to overcome these blocks to cloning. CES200 or DB1316 cells were used to facilitate bacteriophage cloning of sequences which are difficult to clone in standard bacteria such as KH802 recA, the strain used as the host for the cosmid library (22). Fragments were prepared from digests of phage or cosmid clones and used for hybridization to Southern transfers of cloned and genomic NGP DNA.…”

Section: Methodsmentioning

confidence: 99%

Characterization of N-myc amplification units in human neuroblastoma cells.

Zehnbauer¹,

Small²,

Brodeur³

et al. 1988

Mol. Cell. Biol.

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A set of DNA clones comprising 48 independent HindIII fragments (215 kilobases of sequence) was derived from the N-myc amplification unit of the neuroblastoma cell line NGP. These clones were used to investigate N-myc amplification units in NGP cells and 12 primary neuroblastoma tumors. Three parameters were evaluated: (i) the number of rearrangements from germ line configuration that had occurred during the amplification process; (ii) the homogeneity of amplification units within individual tumors; and (iii) the conservation of amplified sequences among different tumors. The results indicated that remarkably few rearrangements had occurred during amplification, that the amplification units within any one tumor were quite homogeneous, and that although each tumor contained a unique pattern of amplified DNA fragments, there was considerable similarity between the amplification units of different tumors. In particular, the amplification units were strikingly similar over a contiguous domain of at least 140 kilobases surrounding the N-myc structural gene.

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Section: Methodsmentioning

confidence: 99%

Characterization of N-myc amplification units in human neuroblastoma cells.

Zehnbauer¹,

Small²,

Brodeur³

et al. 1988

Mol. Cell. Biol.

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“…In both ;1 and plasmid cloning, a recB sbcB host and a recB recC sbcB host have been reported to prevent the deletions of some kinds of recombinant DNAs that were not stably maintained in usual rec+ or recA hosts (Collins et al, 1982;Leach & Stahl, 1983;Wyman et al, 1985;Nader et al, 1985). Therefore, we examined the effects of such E. coli hosts on the cosmid deletion events.…”

Section: Eflects O F a Recb Recc Sbcb Host And Related Hosts On The Dmentioning

confidence: 99%

RecA-independent high-frequency deletion of recombinant cosmid DNA in Escherichia coli

Ishiura

Hazumi

Shinagawa

et al. 1990

Journal of General Microbiology

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Segments of DNA were deleted from recombinant cosmid DNAs during propagation in Escherichia coli hosts in liquid culture. DNAs of more than loo0 cosmids propagated in various E. coli hosts were analysed by agarose gel electrophoresis (AGE). The effects of vectors, insert DNAs and host genetic characters on the formation of deletions were examined. The probability of deletion and the pattern of deletion bands observed by AGE differed from clone to clone, and after extensive culture the deletion band patterns remained almost constant during further culture. Most recombinant clones eventually showed deletion during prolonged liquid culture. Mutations in the recA gene of E. coli hosts, including a deletion mutation, did not prevent deletion. Most deletions occurred in the insert portions of cosmid DNAs. Nucleotide sequence analysis of six deletion junctions in test cosmid cMB15 demonstrated that deletions occurred between two short complete direct repeats of about 4-10 bp, irrespective of whether the cosmid was propagated in a recA host or a rec+ host. Some deletions occurred at the same sites either in a recA host or a rec+ host. These results suggest that the deletion events are mainly mediated by a red-independent recombination system(s) of E coli host cells.

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“…were plated on the Escherichia coli strain CES200 [22] and transferred to nitrocellulose. The probe used to screen for the Drosophila EH gene was the portion of the Munduca EH gene encoding the 62-amino-acid peptide (Manduca coding region probe).…”

Section: Genomic Library Screeningmentioning

confidence: 99%

Isolation, characterization and expression of the eclosion hormone gene of Drosophila melanogaster

Horodyski

Ewer

Riddiford

et al. 1993

European Journal of Biochemistry

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Eclosion hormone (EH) is a neuropeptide that triggers the performance of ecdysis behaviors at the end of a molt. We have isolated the EH gene from Drosophila melanogasfer, and localized the gene to the right arm of chromosome 3 at band position 90B1-2. The 97-amino-acid translation product contains a signal peptide followed by a 73-amino-acid prohormone. The N-terminus of the prohormone has diverged from lepidopteran EH both in its length and amino acid composition, and contains a potential endoproteolytic cleavage site. The deduced sequence of Drosophila EH is 58% identical (36 of 62 amino acids) to that of Manduca EH. The EH gene is expressed as a 0.8-kb transcript in a single pair of brain neurons which extend their processes the entire length of the central nervous system and also to the corpora cardiaca portion of the ring gland. These cells show massive depletion of immunoreactive EH at ecdysis.Over the last 10 years, work in invertebrates in general and insects in particular has led to identification of a large number of neuropeptides, many of which are expressed in a small number of cells within the central nervous system (CNS) [l, 21. These findings raise a number of important questions such as the role of these peptides in the normal physiology and development of the organism and the mechanisms that restrict peptide expression to a select set of cells within the CNS. To answer both questions, Drosophila melunogaster provides a number of distinct advantages. Mutants in a desired gene can be generated with relative ease and P-element transformation technology allows examination of regulatory regions that control peptide expression [3, 41. Consequently, we have turned to Drosophila to further our analysis of the neuropeptide eclosion hormone (EH), that triggers ecdysis of insects [5].Eclosion hormone was first found in moths [6] and later shown to be a 62-amino-acid peptide [7 -91 produced by two pairs of ventromedial neurosecretory cells in the brain [lO-131. In moths it has marked behavioral and developmental actions. It is known to act directly on the CNS to release the stereotyped motor programs that bring about the shedding of the old cuticle at the end of each molt [14]. Circulating peptide also acts on peripheral tissues to cause a diverse set of effects such as an increase in plasticity of wing cuticle [15], discharge of secretion by dermal glands [16], and the programmed degeneration of ecdysial muscles [17]. Yet the full range of EH actions are not known because it is not possible to block selectively either release or action of EH in moths. It appeared feasible to study EH in Drosophila because CNS extracts of both Calliphora [5] and Drosophila (Kimura and Truman, unpublished data) show EH activity in moth bioassays. Moreover, blood from ecdysing fleshflies, Sarcophaga bullata, stimulates premature ecdysis behavior in pharate (before ecdysis) flies [18]. The recent cloning of the EH gene from two species of moths, Munduca sexfa [ll] and Bombyx mori [13], has provided an avenue to search for t...

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Cloning of Physarum actin sequences in an exonuclease-deficient bacterial host.

Cited by 48 publications

References 35 publications

Characterization of N-myc amplification units in human neuroblastoma cells.

Characterization of N-myc amplification units in human neuroblastoma cells.

RecA-independent high-frequency deletion of recombinant cosmid DNA in Escherichia coli

Isolation, characterization and expression of the eclosion hormone gene of Drosophila melanogaster

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