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A Gualberto D LePage G Pons S L Mader K Park M L Atchison K Walsh 《Molecular and cellular biology》1992,12(9):4209-4214
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Cindy Q. Tang Yongchuan Yang Arata Momohara Huan-Chong Wang Hong Truong Luu Shuaifeng Li Kun Song Shenhua Qian Ben LePage Yi-Fei Dong Peng-Bin Han Masahiko Ohsawa Buu Thach Le Huu Dang Tran Minh Tri Dang Ming-Chun Peng Chong-Yun Wang 《Plant Diversity》2019,(4):237-249
The Chinese water pine Glyptostrobus pensilis is the sole surviving species of the genus Glyptostrobus. It is endemic to southern China, central Vietnam, and eastern Laos, and today it is nearly extinct in the wild. Forest community characteristics and population structure of G. pensilis in China have remained un-known up to now. We investigated six swamp forest stands and analyzed their forest community characteristics (i.e. vertical stratification, species composition, and diversity) and population structure, including the frequency distribution of DBH (diameter at breast height) and age-classes as found in Fujian Province, southeastern China. The vertical stratifications of all the forest stands were rather simple. The remaining wild specimens ranged from roughly 15 to some 357 years for an average of ca. 85 years, with only a few individuals less than 20 years old. Compared with the stands and populations of G. pensilis in Vietnam, the taxonomic compositions of the stands in the two regions were different, except for the dominant species-G. pensilis. The Shannon-Wiener index showed the overstory of each stand had much lower diversity (0.26 on average) in Fujian Province than that (1.97 on average) in Vietnam, whereas the diversity indices were about the same (around 2.41) for the understories in the two regions. Furthermore, we discovered 18 G. pensilis seedlings at the study sites in Fujian Province. This discovery demonstrates that G. pensilis regeneration is extremely poor and its populations are declining, although these populations are rela-tively healthier than those in Vietnam. 相似文献
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Contiguous deletion of the X-linked adrenoleukodystrophy gene (ABCD1) and DXS1357E: a novel neonatal phenotype similar to peroxisomal biogenesis disorders 总被引:4,自引:0,他引:4 下载免费PDF全文
Corzo D Gibson W Johnson K Mitchell G LePage G Cox GF Casey R Zeiss C Tyson H Cutting GR Raymond GV Smith KD Watkins PA Moser AB Moser HW Steinberg SJ 《American journal of human genetics》2002,70(6):1520-1531
X-linked adrenoleukodystrophy (X-ALD) results from mutations in ABCD1. ABCD1 resides on Xq28 and encodes an integral peroxisomal membrane protein (ALD protein [ALDP]) that is of unknown function and that belongs to the ATP-binding cassette-transporter superfamily. Individuals with ABCD1 mutations accumulate very-long-chain fatty acids (VLCFA) (carbon length >22). Childhood cerebral X-ALD is the most devastating form of the disease. These children have the earliest onset (age 7.2 +/- 1.7 years) among the clinical phenotypes for ABCD1 mutations, but onset does not occur at <3 years of age. Individuals with either peroxisomal biogenesis disorders (PBD) or single-enzyme deficiencies (SED) in the peroxisomal beta-oxidation pathway--disorders such as acyl CoA oxidase deficiency and bifunctional protein deficiency--also accumulate VLCFA, but they present during the neonatal period. Until now, it has been possible to distinguish unequivocally between individuals with these autosomal recessively inherited syndromes and individuals with ABCD1 mutations, on the basis of the clinical presentation and measurement of other biochemical markers. We have identified three newborn boys who had clinical symptoms and initial biochemical results consistent with PBD or SED. In further study, however, we showed that they lacked ALDP, and we identified deletions that extended into the promoter region of ABCD1 and the neighboring gene, DXS1357E. Mutations in DXS1357E and the ABCD1 promoter region have not been described previously. We propose that the term "contiguous ABCD1 DXS1357E deletion syndrome" (CADDS) be used to identify this new contiguous-gene syndrome. The three patients with CADDS who are described here have important implications for genetic counseling, because individuals with CADDS may previously have been misdiagnosed as having an autosomal recessive PBD or SED 相似文献
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Numerous transposed sequences of mitochondrial cytochrome oxidase I-II in aphids of the genus Sitobion (Hemiptera: Aphididae) 总被引:4,自引:1,他引:3
Polymerase chain reaction (PCR) products corresponding to 803 bp of the
cytochrome oxidase subunits I and II region of mitochondrial DNA (mtDNA
COI-II) were deduced to consist of multiple haplotypes in three Sitobion
species. We investigated the molecular basis of these observations. PCR
products were cloned, and six clones from one individual per species were
sequenced. In each individual, one sequence was found commonly, but also
two or three divergent sequences were seen. The divergent sequences were
shown to be nonmitochondrial by sequencing from purified mtDNA and Southern
blotting experiments. All seven nonmitochondrial clones sequenced to
completion were unique. Nonmitochondrial sequences have a high proportion
of unique sites, and very few characters are shared between
nonmitochondrial clones to the exclusion of mtDNA. From these data, we
infer that fragments of mtDNA have been transposed separately (probably
into aphid chromosomes), at a frequency only known to be equalled in
humans. The transposition phenomenon appears to occur infrequently or not
at all in closely related genera and other aphids investigated. Patterns of
nucleotide substitution in mtDNA inferred over a parsimony tree are very
different from those in transposed sequences. Compared with mtDNA,
nonmitochondrial sequences have less codon position bias, more even
exchanges between A, G, C and T, and a higher proportion of nonsynonymous
replacements. Although these data are consistent with the transposed
sequences being under less constraint than mtDNA, changes in the
nonmitochondrial sequences are not random: there remains significant
position bias, and probable excesses of synonymous replacements and of
conservative inferred amino acid replacements. We conclude that a
proportion of the inferred change in the nonmitochondrial sequences
occurred before transposition. We believe that Sitobion aphids (and other
species exhibiting mtDNA transposition) may be important for studying the
molecular evolution of mtDNA and pseudogenes. However, our data highlight
the need to establish the true evolutionary relationships between sequences
in comparative investigations.
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A. Ross Brown David J. Hosken Fran?ois Balloux Lisa K. Bickley Gareth LePage Stewart F. Owen Malcolm J. Hetheridge Charles R. Tyler 《Philosophical transactions of the Royal Society of London. Series B, Biological sciences》2009,364(1534):3377-3390
Exposure to environmental chemicals can have negative consequences for wildlife and even cause localized population extinctions. Resistance to chemical stress, however, can evolve and the mechanisms include desensitized target sites, reduced chemical uptake and increased metabolic detoxification and sequestration. Chemical resistance in wildlife populations can also arise independently of exposure and may be spread by gene flow between populations. Inbreeding—matings between closely related individuals—can have negative fitness consequences for natural populations, and there is evidence of inbreeding depression in many wildlife populations. In some cases, reduced fitness in inbred populations has been shown to be exacerbated under chemical stress. In chemical testing, both inbred and outbred laboratory animals are used and for human safety assessments, iso-genic strains (virtual clones) of mice and rats are often employed that reduce response variation, the number of animals used and associated costs. In contrast, for environmental risk assessment, strains of animals are often used that have been selectively bred to maintain heterozygosity, with the assumption that they are better able to predict adverse effects in wild, genetically variable, animals. This may not necessarily be the case however, as one outbred strain may not be representative of another or of a wild population. In this paper, we critically discuss relationships between genetic variation, inbreeding and chemical effects with the intention of seeking to support more effective chemical testing for the protection of wildlife. 相似文献