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31.
Evolutionary dynamics of tandem repeats in the mitochondrial DNA control region of the minnow Cyprinella spiloptera 总被引:3,自引:0,他引:3
Length variation due to tandem repeats is now recognized as a common
feature of animal mitochondrial DNA; however, the evolutionary dynamics of
repeated sequences are not well understood. Using phylogenetic analysis,
predictions of three models of repeat evolution were tested for arrays of
260-bp repeats in the cyprinid fish Cyprinella spiloptera. Variation at
different nucleotide positions in individual repeats supported different
models of repeat evolution. One set of characters included several
nucleotide variants found in all copies from a limited number of
individuals, while the other set included an 8- bp deletion found in a
limited number of copies in all individuals. The deletion and an associated
nucleotide change appear to be the result of a deterministic, rather than
stochastic, mutation process. Parallel origins of repeat arrays in
different mitochondrial lineages, possibly coupled with a homogenization
mechanism, best explain the distribution of nucleotide variation.
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32.
VISHWANATH PATIL JON BRÅTE KAMRAN SHALCHIAN-TABRIZI KJETILL S. JAKOBSEN 《The Journal of eukaryotic microbiology》2009,56(4):394-396
ABSTRACT. Two new classes Synchromophyceae and Picophagea, belonging to the heterokonts, have been proposed recently in separate studies of 18S rRNA phylogenies. Here we revise the 18S phylogeny of these classes by including all available sequenced species and applying Bayesian and maximum likelihood methods; Synchroma grande groups with the photophagotrophic Chlamydomyxa labyrinthuloides with high statistical support. This clade is sister to Chrysophyceae, together they share a common ancestry. Our results show that the creation of class Synchromophyceae by Horn et al. was premature, because they did not include data from the closely related C. labyrinthuloides and Picophagus flagellatus species. A revision of these classes should include additional species and most likely multigene phylogenies. 相似文献
33.
Schweda EK Landerholm MK Li J Richard Moxon E Richards JC 《Carbohydrate research》2003,338(23):2731-2744
Non-typeable Haemophilus influenzae (NTHi) is a significant cause of otitis media in children. We have employed single and multiple step electrospray ionization mass spectrometry (ESIMS) and NMR spectroscopy to profile and elucidate lipopolysaccharide (LPS) structural types expressed by NTHi strain 162, a strain obtained from an epidemiological study in Finland. ESIMS on O-deacylated LPS (LPS-OH) and core oligosaccharide (OS) samples of LPS provided information on the composition and relative abundance of glycoforms differing in the number of hexoses linked to the conserved inner-core element, L-alpha-D-Hepp-(1-->2)-[PEtn-->6]-L-alpha-D-Hepp-(1-->3)-L-alpha-D-Hepp-(1-->5)-[PPEtn-->4]-alpha-Kdop-(2-->6)-Lipid A of H. influenzae LPS. The strain examined was found to elaborate Hex2 to Hex5 LPS glycoform populations having structures identical to those observed for H. influenzae strain Rd [Risberg, A.; Masoud, H.; Martin, A.; Richards, J.C.; Moxon, E.R.; Schweda, E.K.H. Eur. J. Biochem. 1999, 261, 171-180], the strain for which the complete genome has been sequenced. In addition, sialyllactose-containing glycoforms previously identified in strain Rd as well as several NTHi strains, were identified as minor components. Multiple step tandem ESIMS (MS(n)) on dephosphorylated and permethylated OS provided information on the arrangement of glycoses within the major population of glycoforms and on the existence of additional isomeric glycoforms. Minor Hex1 and Hex6 glycoforms were detected and characterized where the Hex6 glycoform was comprised of a dihexosamine-containing pentasaccharide chain attached at the proximal heptose residue of the inner-core unit. LPS structural motifs present in the NTHi strain 162 are expressed by a genetically diverse set of disease causing isolates, providing the basis for a vaccine strategy against NTHi otitis media. 相似文献
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35.
Liao, T.Y. & Kullander, S.O. (2012). Phylogenetic significance of the kinethmoid‐associated Y‐shaped ligament and long intercostal ligaments in the Cypriniformes (Actinopterygii: Ostariophysi). —Zoologica Scripta, 42, 71–87. The phylogenetic significance of the Y‐shaped and long intercostal ligaments in the Cypriniformes is examined using character optimization in 184 species representing 20 non‐ostariophysan teleost species, five ostariophysan orders, seven cypriniform families and 14 cyprinid subfamilies. Character states were optimized on the phylogenetic trees of previous studies. Given the topology of Saitoh et al. (2011) , the Y‐shaped ligament, connecting the kinethmoid to the ethmoid complex, is shown to be a synapomorphy for the Cyprinidae, with reversals observed in the Cyprininae, Danioninae, Gobioninae and Psilorhynchinae. The condition of the Y‐shaped ligament is consistent within most subfamilies with a few exceptions. Despite the exceptions, the Y‐shaped ligament may be considered as a diagnostic character distinguishing cyprinid subfamilies with otherwise similar morphology, that is, the Danioninae and Opsariichthyinae. The long intercostal ligament, connecting five to eight ribs and ascending from the subdistal end of the fifth rib, is present in the Catostomidae and all cyprinid subfamilies, except for the Psilorhynchinae and two developmentally truncated genera, Danionella and Paedocypris. In addition to these two cypriniforme families, the long intercostal ligament is homoplastically present in some catfishes. Given the topology of Saitoh et al. (2011) , presence of the long intercostal ligament is a synapomorphy of Cyprinidae+Catostomidae. Some shorter ligaments are also present in the Cypriniformes and Chilodus gracilis (Characiformes), near the base of the anterior ribs and only occurring anterodorsally to the putative line of the long intercostal ligament even when it is absent. 相似文献
36.
为了研究杂交构树UDP-葡萄糖脱氢酶基因(DDBJ,BpUGDH基因登录号为LC457701)启动子不同区域的表达活性,利用5'端缺失及同源重组实验技术,将5个不同长度的BpUGDH启动子5'端缺失片段与GUS基因连接,并通过农杆菌介导法瞬时转化烟草;同时,为了定位BpUGDH基因编码的蛋白在细胞中表达的具体位置,利用GFP报告基因融合目的基因进行蛋白质的亚细胞定位。结果显示:BpUGDH基因启动子-244 bp以内的序列均能介导GUS基因的诱导表达,并且-973、-465、-355、-281和-244 bp之间的区域可能对BpUGDH基因启动子的活性发挥着至关重要的作用。另外,BpUGDH基因编码蛋白的亚细胞定位结果显示:BpUGDH位于叶绿体中。 相似文献