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41.
Speciation in animals is almost always envisioned as the split of an existing lineage into an ancestral and a derived species. An alternative speciation route is homoploid hybrid speciation in which two ancestral taxa give rise to a third, derived, species by hybridization without a change in chromosome number. Although theoretically possible it has been regarded as rare and hence of little importance in animals. On the basis of molecular and chromosomal evidence, hybridization is the best explanation for the origin of a handful of extant diploid bisexual animal taxa. Here we report the first case in which hybridization between two host-specific animals (tephritid fruitflies) is clearly associated with the shift to a new resource. Such a hybrid host shift presents an ecologically robust scenario for animal hybrid speciation because it offers a potential mechanism for reproductive isolation through differential adaptation to a new ecological niche. The necessary conditions for this mechanism of speciation are common in parasitic animals, which represent much of animal diversity. The frequency of homoploid hybrid speciation in animals may therefore be higher than previously assumed. 相似文献
42.
Lymphatic vascular defects promoted by Prox1 haploinsufficiency cause adult-onset obesity 总被引:1,自引:0,他引:1
Harvey NL Srinivasan RS Dillard ME Johnson NC Witte MH Boyd K Sleeman MW Oliver G 《Nature genetics》2005,37(10):1072-1081
Multiple organs cooperate to regulate appetite, metabolism, and glucose and fatty acid homeostasis. Here, we identified and characterized lymphatic vasculature dysfunction as a cause of adult-onset obesity. We found that functional inactivation of a single allele of the homeobox gene Prox1 led to adult-onset obesity due to abnormal lymph leakage from mispatterned and ruptured lymphatic vessels. Prox1 heterozygous mice are a new model for adult-onset obesity and lymphatic vascular disease. 相似文献
43.
Gribouval O Gonzales M Neuhaus T Aziza J Bieth E Laurent N Bouton JM Feuillet F Makni S Ben Amar H Laube G Delezoide AL Bouvier R Dijoud F Ollagnon-Roman E Roume J Joubert M Antignac C Gubler MC 《Nature genetics》2005,37(9):964-968
Autosomal recessive renal tubular dysgenesis is a severe disorder of renal tubular development characterized by persistent fetal anuria and perinatal death, probably due to pulmonary hypoplasia from early-onset oligohydramnios (Potter phenotype). Absence or paucity of differentiated proximal tubules is the histopathological hallmark of the disease and may be associated with skull ossification defects. We studied 11 individuals with renal tubular dysgenesis, belonging to nine families, and found that they had homozygous or compound heterozygous mutations in the genes encoding renin, angiotensinogen, angiotensin converting enzyme or angiotensin II receptor type 1. We propose that renal lesions and early anuria result from chronic low perfusion pressure of the fetal kidney, a consequence of renin-angiotensin system inactivity. This is the first identification to our knowledge of a renal mendelian disorder linked to genetic defects in the renin-angiotensin system, highlighting the crucial role of the renin-angiotensin system in human kidney development. 相似文献
44.
Senderek J Krieger M Stendel C Bergmann C Moser M Breitbach-Faller N Rudnik-Schöneborn S Blaschek A Wolf NI Harting I North K Smith J Muntoni F Brockington M Quijano-Roy S Renault F Herrmann R Hendershot LM Schröder JM Lochmüller H Topaloglu H Voit T Weis J Ebinger F Zerres K 《Nature genetics》2005,37(12):1312-1314
SIL1 (also called BAP) acts as a nucleotide exchange factor for the Hsp70 chaperone BiP (also called GRP78), which is a key regulator of the main functions of the endoplasmic reticulum. We found nine distinct mutations that would disrupt the SIL1 protein in individuals with Marinesco-Sj?gren syndrome, an autosomal recessive cerebellar ataxia complicated by cataracts, developmental delay and myopathy. Identification of SIL1 mutations implicates Marinesco-Sj?gren syndrome as a disease of endoplasmic reticulum dysfunction and suggests a role for this organelle in multisystem disorders. 相似文献
45.
Li J Ning Y Hedley W Saunders B Chen Y Tindill N Hannay T Subramaniam S 《Nature》2002,420(6916):716-717
The Alliance for Cellular Signaling (AfCS)-Nature Molecule Pages will be a comprehensive database of key facts about more than 3,000 proteins involved in cell signalling. Each entry will be created by invited experts and be peer-reviewed. Alongside the large-scale experiments being conducted by the AfCS scientists, the wealth of information contained in this database offers the potential of accelerating the pace of discovery in signal transduction research. 相似文献
46.
Ricardo C. Garcez Nicole M. Le Douarin Sophie E. Creuzet 《Cellular and molecular life sciences : CMLS》2014,71(11):2149-2164
The combinatorial expression of Hox genes is an evolutionarily ancient program underlying body axis patterning in all Bilateria. In the head, the neural crest (NC)––a vertebrate innovation that contributes to evolutionarily novel skeletal and neural features––develops as a structure free of Hox-gene expression. The activation of Hoxa2 in the Hox-free facial NC (FNC) leads to severe craniofacial and brain defects. Here, we show that this condition unveils the requirement of three Six genes, Six1, Six2, and Six4, for brain development and morphogenesis of the maxillo-mandibular and nasofrontal skeleton. Inactivation of each of these Six genes in FNC generates diverse brain defects, ranging from plexus agenesis to mild or severe holoprosencephaly, and entails facial hypoplasia or truncation of the craniofacial skeleton. The triple silencing of these genes reveals their complementary role in face and brain morphogenesis. Furthermore, we show that the perturbation of the intrinsic genetic FNC program, by either Hoxa2 expression or Six gene inactivation, affects Bmp signaling through the downregulation of Bmp antagonists in the FNC cells. When upregulated in the FNC, Bmp antagonists suppress the adverse skeletal and cerebral effects of Hoxa2 expression. These results demonstrate that the combinatorial expression of Six1, Six2, and Six4 is required for the molecular programs governing craniofacial and cerebral development. These genes are crucial for the signaling system of FNC origin, which regulates normal growth and patterning of the cephalic neuroepithelium. Our results strongly suggest that several congenital craniofacial and cerebral malformations could be attributed to Six genes’ misregulation. 相似文献
47.
Timm Schubert Corinna Gleiser Peter Heiduschka Christoph Franz Kerstin Nagel-Wolfrum Ayse Sahaboglu Nicole Weisschuh Gordon Eske Karin Rohbock Norman Rieger François Paquet-Durand Bernd Wissinger Uwe Wolfrum Bernhard Hirt Wibke Singer Lukas Rüttiger Ulrike Zimmermann Marlies Knipper 《Cellular and molecular life sciences : CMLS》2015,72(20):3953-3969
48.
Lathrop SK Bloom SM Rao SM Nutsch K Lio CW Santacruz N Peterson DA Stappenbeck TS Hsieh CS 《Nature》2011,478(7368):250-254
The instruction of the immune system to be tolerant of self, thereby preventing autoimmunity, is facilitated by the education of T cells in a specialized organ, the thymus, in which self-reactive cells are either eliminated or differentiated into tolerogenic Foxp3(+) regulatory T (T(reg)) cells. However, it is unknown whether T cells are also educated to be tolerant of foreign antigens, such as those from commensal bacteria, to prevent immunopathology such as inflammatory bowel disease. Here we show that encounter with commensal microbiota results in the peripheral generation of T(reg) cells rather than pathogenic effectors. We observed that colonic T(reg) cells used T-cell antigen receptors (TCRs) different from those used by T(reg) cells in other locations, implying an important role for local antigens in shaping the colonic T(reg)-cell population. Many of the local antigens seemed to be derived from commensal bacteria, on the basis of the in vitro reactivity of common colon T(reg) TCRs. These TCRs did not facilitate thymic T(reg)-cell development, implying that many colonic T(reg) cells arise instead by means of antigen-driven peripheral T(reg)-cell development. Further analysis of two of these TCRs by the creation of retroviral bone marrow chimaeras and a TCR transgenic line revealed that microbiota indigenous to our mouse colony was required for the generation of colonic T(reg) cells from otherwise naive T cells. If T cells expressing these TCRs fail to undergo T(reg)-cell development and instead become effector cells, they have the potential to induce colitis, as evidenced by adoptive transfer studies. These results suggest that the efficient peripheral generation of antigen-specific populations of T(reg) cells in response to an individual's microbiota provides important post-thymic education of the immune system to foreign antigens, thereby providing tolerance to commensal microbiota. 相似文献
49.
Jacquemont S Reymond A Zufferey F Harewood L Walters RG Kutalik Z Martinet D Shen Y Valsesia A Beckmann ND Thorleifsson G Belfiore M Bouquillon S Campion D de Leeuw N de Vries BB Esko T Fernandez BA Fernández-Aranda F Fernández-Real JM Gratacòs M Guilmatre A Hoyer J Jarvelin MR Kooy RF Kurg A Le Caignec C Männik K Platt OS Sanlaville D Van Haelst MM Villatoro Gomez S Walha F Wu BL Yu Y Aboura A Addor MC Alembik Y Antonarakis SE Arveiler B Barth M Bednarek N Béna F Bergmann S Beri M Bernardini L 《Nature》2011,478(7367):97-102
50.