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Survival of Male Patients with Incontinentia Pigmenti Carrying a Lethal Mutation Can Be Explained by Somatic Mosaicism or Klinefelter Syndrome 总被引:2,自引:0,他引:2 下载免费PDF全文
The International IP Consortium 《American journal of human genetics》2001,69(6):1210-1217
Incontinentia pigmenti (IP), or "Bloch-Sulzberger syndrome," is an X-linked dominant disorder characterized by abnormalities of skin, teeth, hair, and eyes; skewed X-inactivation; and recurrent miscarriages of male fetuses. IP results from mutations in the gene for NF-kappaB essential modulator (NEMO), with deletion of exons 4-10 of NEMO accounting for >80% of new mutations. Male fetuses inheriting this mutation and other "null" mutations of NEMO usually die in utero. Less deleterious mutations can result in survival of males subjects, but with ectodermal dysplasia and immunodeficiency. Male patients with skin, dental, and ocular abnormalities typical of those seen in female patients with IP (without immunodeficiency) are rare. We investigated four male patients with clinical hallmarks of IP. All four were found to carry the deletion normally associated with male lethality in utero. Survival in one patient is explained by a 47,XXY karyotype and skewed X inactivation. Three other patients possess a normal 46,XY karyotype. We demonstrate that these patients have both wild-type and deleted copies of the NEMO gene and are therefore mosaic for the common mutation. Therefore, the repeat-mediated rearrangement leading to the common deletion does not require meiotic division. Hypomorphic alleles, a 47,XXY karyotype, and somatic mosaicism therefore represent three mechanisms for survival of males carrying a NEMO mutation. 相似文献
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MicroRNAs (miRNAs) are involved in human health and disease as endogenous suppressors of the translation of coding genes. At this early point of time in miRNA biology, it is important to identify specific cognate mRNA targets for miRNA. Investigation of the significance of miRNAs in disease processes relies on algorithms that hypothetically link specific miRNAs to their putative target genes. The development of such algorithms represents a hot area of research in biomedical informatics. Lack of biological data linking specific miRNAs to their respective mRNA targets represents the most serious limitation at this time. This article presents a concise review addressing the most popular concepts underlying state-of-the-art algorithms and principles aimed at target mapping for specific miRNAs. Strategies for improvement of the current bioinformatics tools and effective approaches for biological validation are discussed. 相似文献
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S. LUYSSAERT P. CIAIS S. L. PIAO E.‐D. SCHULZE M. JUNG S. ZAEHLE M. J. SCHELHAAS M. REICHSTEIN G. CHURKINA D. PAPALE G. ABRIL C. BEER J. GRACE D. LOUSTAU G. MATTEUCCI F. MAGNANI G. J. NABUURS H. VERBEECK M. SULKAVA G. R.
Van Der WERF I. A. JANSSENS members of the CARBOEUROPE‐IP SYNTHESIS TEAM 《Global Change Biology》2010,16(5):1429-1450
We present a new synthesis, based on a suite of complementary approaches, of the primary production and carbon sink in forests of the 25 member states of the European Union (EU‐25) during 1990–2005. Upscaled terrestrial observations and model‐based approaches agree within 25% on the mean net primary production (NPP) of forests, i.e. 520±75 g C m?2 yr?1 over a forest area of 1.32 × 106 km2 to 1.55 × 106 km2 (EU‐25). New estimates of the mean long‐term carbon forest sink (net biome production, NBP) of EU‐25 forests amounts 75±20 g C m?2 yr?1. The ratio of NBP to NPP is 0.15±0.05. Estimates of the fate of the carbon inputs via NPP in wood harvests, forest fires, losses to lakes and rivers and heterotrophic respiration remain uncertain, which explains the considerable uncertainty of NBP. Inventory‐based assessments and assumptions suggest that 29±15% of the NBP (i.e., 22 g C m?2 yr?1) is sequestered in the forest soil, but large uncertainty remains concerning the drivers and future of the soil organic carbon. The remaining 71±15% of the NBP (i.e., 53 g C m?2 yr?1) is realized as woody biomass increments. In the EU‐25, the relatively large forest NBP is thought to be the result of a sustained difference between NPP, which increased during the past decades, and carbon losses primarily by harvest and heterotrophic respiration, which increased less over the same period. 相似文献
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The present study provides insights on the dominant mechanisms of motions of the nucleosome core particle and the changes in its functional dynamics in response to histone variants. Comparative analysis of the global dynamics of nucleosomes with native and variant H2A histones, using normal mode analysis revealed that the dynamics of the nucleosome is highly symmetric, and its interaction with the nucleosomal DNA plays a vital role in its regulation. The collective dynamics of nucleosomes are predicted to be dominated by two types of large-scale motions: (1) a global stretching-compression of nucleosome along the dyad axis by which the nucleosome undergoes a breathing motion with a massive distortion of nucleosomal DNA, modulated by histone-DNA interactions; and (2) the flipping (or bending) of both the sides of the nucleosome in an out-of-plane fashion with respect to the dyad axis, originated by the highly dynamic N-termini of H3 and (H2A.Z-H2B) dimer in agreement with the experimentally observed perturbed dynamics of the particular N-terminus under physiological conditions. In general, the nucleosomes with variant histones exhibit higher mobilities and weaker correlations between internal motions compared to the nucleosome containing ordinary histones. The differences are more pronounced at the L1 and L2 loops of the respective monomers H2B and H2A, and at the N-termini of the monomers H3 and H4, all of which closely interact with the wrapping DNA. 相似文献
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Nucleotide sequence of the genes for tryptophan synthase in Pseudomonas aeruginosa 总被引:17,自引:0,他引:17
We have determined the DNA sequence of the two adjacent genes for the alpha
and beta chains of tryptophan synthase in Pseudomonas aeruginosa, along
with 34 5'-flanking and 799 3'-flanking base pairs. The gene order is trpBA
as predicted from earlier genetic studies, and the two cistrons overlap by
4 bp; a ribosome binding site for the second gene is evident in the coding
sequence of the first gene. We have also determined the location of three
large deletions eliminating portions of each gene. A detailed comparison of
the deduced P. aeruginosa amino acid sequence with those published for E.
coli, Bacillus subtilis, and Saccharomyces cerevisiae shows much similarity
throughout the beta and most of the alpha subunit. Most of the residues
implicated by chemical modification or mutation as being critical for
enzymatic activity are conserved, along with many others, suggesting that
three-dimensional structure has remained largely constant during evolution.
We also report the construction of a recombinant plasmid that overproduces
a slightly modified alpha subunit from P. aeruginosa that can form a
functionally effective multimer with normal E. coli beta 2 subunit in vivo.
相似文献
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