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Fragmentations of (M,H), anions of underivatised peptides.

MASS SPECTROMETRY REVIEWS, Issue 1 2009
Part 2: Characteristic cleavages of Ser, of disulfides, other post-translational modifications, together with some unusual internal processes
Abstract In a previous review (Bowie, Brinkworth, & Dua (2002); Mass Spectrom Rev 21:87,107) we described the characteristic backbone cleavages and side chain fragmentations which occur from (M,H), parent anions of underivatized peptides. This work is briefly summarized in the present review. Cys was not described in the previous review: here we describe the Cys characteristic side chain loss of H2S, together with its , backbone cleavage. These processes are compared with those of the related Ser. All experimental observations are backed up with theoretical studies at the HF/6-31G(d)//AM1 level of theory, a level of theory which we have shown gives good geometries and acceptable relative energies. The negative ion cleavages of a number of post-translational modifications are described. Negative ion mass spectrometry is the method of choice for identification of disulfides in both peptides and proteins. Intramolecular disulfides are identified by the presence of the fragment anion [(M,H),,H2S2], and CID MS2 of this fragment normally identifies the positions of the two Cys residues and often the full sequence of the peptide. An unsymmetrically substituted intermolecular disulfide can give up to eight characteristic fragment anions, and CID MS2 of some, or all of these often provides the full sequence of those peptides which form the initial intermolecular disulfide linkage. Negative ion cleavages of disulfides are the most energetically favored of all peptide negative cleavages studied to date. Negative ion mass spectrometry is also valuable for the identification of pyroglutamates, sulfates and phosphates. Finally, some unusual fragmentations are described which involve cyclization/elimination reactions which require the decomposing (M,H), parent anions to adopt the same helical conformation that these peptides have in solution. © 2008 Wiley Periodicals, Inc., Mass Spec Rev 28:20,34, 2009 [source]

A phylogeographical study of the Turnip mosaic virus population in East Asia reveals an ,emergent' lineage in Japan

MOLECULAR ECOLOGY, Issue 14 2006
YASUHIRO TOMITAKA
Abstract The genetic structure of populations of Turnip mosaic virus (TuMV) in East Asia was assessed by making host range and gene sequence comparisons of 118 isolates utilizing a population genetic approach. Most, but not all, isolates collected from Brassica plants in China infected only Brassica plants, whereas those from Japan infected both Brassica and Raphanus (BR) plants. Analyses of the positions of recombination sites in five regions of the genomes (one third of the full sequence) of the many recombinant isolates were fully congruent with the results of phylogenetic analysis, and at least one recombination type pattern was shared between Chinese and Japanese populations. One lineage of nonrecombinant isolates from the basal-BR lineage was found in 2000 in Kyushu, Japan but none in China, and have since been found over the whole island. The sudden expansion of this basal-BR population was strongly supported by calculations showing the deviations from the neutral equilibrium model for the individual geographical lineages with overall lack of nucleotide diversity, and by analysis of mismatch distribution. Our study shows that the recent Chinese and Japanese TuMV isolates are part of the same population but are discrete lineages. [source]

Linkage mapping and comparative analysis of bovine expressed sequence tags (ESTs)

ANIMAL GENETICS, Issue 3 2000
W M Grosse
Summary Bovine expressed sequence tags (ESTs) containing microsatellites are suitable markers for both linkage and comparative maps. We isolated clones from a bovine fetal thigh skeletal muscle cDNA library that were positive for a (CA)10 probe. Thirty individual clones were isolated and characterised by sequencing. Sequences from the 5, and 3, ends of a clone were considered as separate ESTs until a contiguous sequence was identified. A total of 47 ESTs were sequenced from the 5, and/or 3, ends and full sequence was obtained for the 30 clones. BLAST nucleotide analysis identified significant homology to known mammalian coding regions for 31 of the bovine ESTs, 30 of which also matched human ESTs or sequence-tagged sites (STS). The remaining 16 bovine ESTs represented novel transcripts. Microsatellites were isolated in 27 of the ESTs, 11 of which were developed into markers and placed on the MARC bovine linkage map. Human cytogenetic map positions were available for 20 of the 30 human EST orthologs, and a putative bovine map position for 17 of the sequences could be inferred using comparative mapping data. These results demonstrated that mapping bovine ESTs containing microsatellites is a plausible strategy to increase the density of gene markers on the bovine linkage and comparative maps. [source]

Characterization of an I,B-like gene in Cotesia vestalis polydnavirus

ARCHIVES OF INSECT BIOCHEMISTRY AND PHYSIOLOGY (ELECTRONIC), Issue 2 2008
Ya-Feng Chen
Abstract Cotesia vestalis (Braconidae, Hymenoptera) depends mainly on 3 regulatory factors to manipulate its host's development and immune response, including polydnavirus, venom, and teratocytes, among which polydnavirus plays a key role in suppressing the host immune system. In the present work, we cloned the full sequence of gene CvBV-ank2, encoding an I,B-like protein in C. vestalis polydnavirus (CvBV). The full sequence of CvBV-ank2 is 955 bp, encoding 162 amino acids with a calculated molecular mass of 18,355 Da. CvBV-ank2 shares high similarity with the exon I and exon II of CvBV-ank1, which is on the same segment with CvBV-ank2. This result suggests that gene duplication might occur in CvBV-ank1 and CvBV-ank2. Phylogenetic analysis indicated that CvBV-ank2 and CvBV-ank1, both on segment CvBV-S2, are, respectively, closely related with CcBV,26.3 and CcBV,26.2, both on segment Circle26 of C. congregata polydnavirus (CcBV). BLAST search using the sequence of segment CvBV-S2 as a query revealed that segment CvBV-S2 shares 90% max identity with segment Circle26 of CcBV over 67% query coverage. These results demonstrate that there is not only gene similarity, but also segment similarity between CvBV and CcBV. Transcripts of CvBV-ank2 were detected as early as 0.5 h post-parasitization and continued to be detected for 6 days, indicating that CvBV-ank2 might be involved in the early protection of the parasitoid egg. Arch. Insect Biochem. Physiol. 2008. © 2008 Wiley-Liss, Inc. [source]