02234nas a2200325 4500008004100000022001400041245014800055210006900203260001600272300001100288490000700299520106600306100002701372700003201399700002401431700001701455700002601472700001901498700002101517700001801538700002201556700001701578700001901595700002901614700002001643700002301663700002301686700002401709856017501733 2023 eng d a2211-124700aDefective extracellular matrix remodeling in brown adipose tissue is associated with fibro-inflammation and reduced diet-induced thermogenesis.0 aDefective extracellular matrix remodeling in brown adipose tissu c2023 Jun 13 a1126400 v423 a
The relevance of extracellular matrix (ECM) remodeling is reported in white adipose tissue (AT) and obesity-related dysfunctions, but little is known about the importance of ECM remodeling in brown AT (BAT) function. Here, we show that a time course of high-fat diet (HFD) feeding progressively impairs diet-induced thermogenesis concomitantly with the development of fibro-inflammation in BAT. Higher markers of fibro-inflammation are associated with lower cold-induced BAT activity in humans. Similarly, when mice are housed at thermoneutrality, inactivated BAT features fibro-inflammation. We validate the pathophysiological relevance of BAT ECM remodeling in response to temperature challenges and HFD using a model of a primary defect in the collagen turnover mediated by partial ablation of the Pepd prolidase. Pepd-heterozygous mice display exacerbated dysfunction and BAT fibro-inflammation at thermoneutrality and in HFD. Our findings show the relevance of ECM remodeling in BAT activation and provide a mechanism for BAT dysfunction in obesity.
1 aPellegrinelli, Vanessa1 aFigueroa-Juárez, Elizabeth1 aSamuelson, Isabella1 aU-Din, Mueez1 aRodriguez-Fdez, Sonia1 aVirtue, Samuel1 aLeggat, Jennifer1 aCubuk, Cankut1 aPeirce, Vivian, J1 aNiemi, Tarja1 aCampbell, Mark1 aRodriguez-Cuenca, Sergio1 aDopazo, Joaquin1 aCarobbio, Stefania1 aVirtanen, Kirsi, A1 aVidal-Puig, Antonio uhttps://www.clinbioinfosspa.es/content/defective-extracellular-matrix-remodeling-brown-adipose-tissue-associated-fibro-inflammation-and-reduced-diet-induced-thermogenesis08213nas a2202125 4500008004100000022001400041245005800055210005600113260001600169520175300185100001701938700002901955700002801984700002002012700002702032700002002059700003002079700003402109700002902143700002702172700003102199700002002230700002502250700002002275700002802295700002302323700002102346700001902367700002902386700002302415700001802438700002202456700002402478700002902502700002902531700002902560700002102589700002502610700002302635700001802658700002002676700002002696700002602716700002402742700001802766700002202784700002402806700003102830700002802861700001802889700002102907700003202928700002502960700003102985700003003016700002403046700001903070700003303089700002903122700002903151700003403180700002803214700002503242700002503267700003303292700003203325700002903357700003303386700002703419700003003446700002903476700002803505700002503533700002903558700002003587700002803607700002103635700002603656700002603682700003303708700002703741700002303768700003103791700001903822700002703841700002403868700002603892700002203918700002003940700002203960700002103982700002804003700002004031700002504051700002004076700002904096700002604125700003004151700001804181700002604199700002104225700002704246700002804273700003304301700003104334700002804365700002704393700001604420700002504436700002404461700002004485700002704505700003704532700002104569700002504590700002004615700002504635700002104660700001704681700002204698700002004720700002304740700003004763700002404793700001804817700002204835700001904857700002204876700002804898700001904926700001904945700001704964700002004981700002605001700001905027700002005046700002205066700001905088700003105107700002205138700002205160700002105182700001805203700002105221700002605242700002605268700003005294700002105324700002305345700002405368700002005392700002305412700001605435700002005451700003205471700002005503700001805523700002005541700001805561700001705579700002005596700001805616700001805634700001805652700001905670700002205689700002305711700003005734700001805764700002605782700002205808700002805830700001905858700002105877700002205898710002505920710002505945710002405970856009305994 2022 eng d a1460-208300aNovel genes and sex differences in COVID-19 severity.0 aNovel genes and sex differences in COVID19 severity c2022 Jun 163 aHere we describe the results of a genome-wide study conducted in 11 939 COVID-19 positive cases with an extensive clinical information that were recruited from 34 hospitals across Spain (SCOURGE consortium). In sex-disaggregated genome-wide association studies for COVID-19 hospitalization, genome-wide significance (p < 5x10-8) was crossed for variants in 3p21.31 and 21q22.11 loci only among males (p = 1.3x10-22 and p = 8.1x10-12, respectively), and for variants in 9q21.32 near TLE1 only among females (p = 4.4x10-8). In a second phase, results were combined with an independent Spanish cohort (1598 COVID-19 cases and 1068 population controls), revealing in the overall analysis two novel risk loci in 9p13.3 and 19q13.12, with fine-mapping prioritized variants functionally associated with AQP3 (p = 2.7x10-8) and ARHGAP33 (p = 1.3x10-8), respectively. The meta-analysis of both phases with four European studies stratified by sex from the Host Genetics Initiative confirmed the association of the 3p21.31 and 21q22.11 loci predominantly in males and replicated a recently reported variant in 11p13 (ELF5, p = 4.1x10-8). Six of the COVID-19 HGI discovered loci were replicated and an HGI-based genetic risk score predicted the severity strata in SCOURGE. We also found more SNP-heritability and larger heritability differences by age (<60 or ≥ 60 years) among males than among females. Parallel genome-wide screening of inbreeding depression in SCOURGE also showed an effect of homozygosity in COVID-19 hospitalization and severity and this effect was stronger among older males. In summary, new candidate genes for COVID-19 severity and evidence supporting genetic disparities among sexes are provided.
1 aCruz, Raquel1 ade Almeida, Silvia, Diz-1 aHeredia, Miguel, López1 aQuintela, Inés1 aCeballos, Francisco, C1 aPita, Guillermo1 aLorenzo-Salazar, José, M1 aGonzález-Montelongo, Rafaela1 aGago-Domínguez, Manuela1 aPorras, Marta, Sevilla1 aCastaño, Jair, Antonio Te1 aNevado, Julián1 aAguado, Jose, María1 aAguilar, Carlos1 aAguilera-Albesa, Sergio1 aAlmadana, Virginia1 aAlmoguera, Berta1 aAlvarez, Nuria1 aAndreu-Bernabeu, Álvaro1 aArana-Arri, Eunate1 aArango, Celso1 aArranz, María, J1 aArtiga, Maria-Jesus1 aBaptista-Rosas, Raúl, C1 aBarreda-Sánchez, María1 aBelhassen-Garcia, Moncef1 aBezerra, Joao, F1 aBezerra, Marcos, A C1 aBoix-Palop, Lucía1 aBrión, Maria1 aBrugada, Ramón1 aBustos, Matilde1 aCalderón, Enrique, J1 aCarbonell, Cristina1 aCastano, Luis1 aCastelao, Jose, E1 aConde-Vicente, Rosa1 aCordero-Lorenzana, Lourdes1 aCortes-Sanchez, Jose, L1 aCorton, Marta1 aDarnaude, Teresa1 aDe Martino-Rodríguez, Alba1 aCampo-Pérez, Victor1 aBustamante, Aranzazu, Diaz1 aDomínguez-Garrido, Elena1 aLuchessi, André, D1 aEirós, Rocío1 aSanabria, Gladys, Mercedes E1 aFariñas, María, Carmen1 aFernández-Robelo, Uxía1 aFernández-Rodríguez, Amanda1 aFernández-Villa, Tania1 aGil-Fournier, Belén1 aGómez-Arrue, Javier1 aÁlvarez, Beatriz, González1 aQuirós, Fernan, Gonzalez B1 aGonzález-Peñas, Javier1 aGutiérrez-Bautista, Juan, F1 aHerrero, María, José1 aHerrero-Gonzalez, Antonio1 aJimenez-Sousa, María, A1 aLattig, María, Claudia1 aBorja, Anabel, Liger1 aLopez-Rodriguez, Rosario1 aMancebo, Esther1 aMartín-López, Caridad1 aMartín, Vicente1 aMartinez-Nieto, Oscar1 aMartinez-Lopez, Iciar1 aMartinez-Resendez, Michel, F1 aMartinez-Perez, Ángel1 aMazzeu, Juliana, A1 aMacías, Eleuterio, Merayo1 aMinguez, Pablo1 aCuerda, Victor, Moreno1 aSilbiger, Vivian, N1 aOliveira, Silviene, F1 aOrtega-Paino, Eva1 aParellada, Mara1 aPaz-Artal, Estela1 aSantos, Ney, P C1 aPérez-Matute, Patricia1 aPerez, Patricia1 aPérez-Tomás, Elena1 aPerucho, Teresa1 aPinsach-Abuin, Mel, Lina1 aPompa-Mera, Ericka, N1 aPorras-Hurtado, Gloria, L1 aPujol, Aurora1 aLeón, Soraya, Ramiro1 aResino, Salvador1 aFernandes, Marianne, R1 aRodríguez-Ruiz, Emilio1 aRodriguez-Artalejo, Fernando1 aRodriguez-Garcia, José, A1 aRuiz-Cabello, Francisco1 aRuiz-Hornillos, Javier1 aRyan, Pablo1 aSoria, José, Manuel1 aSouto, Juan, Carlos1 aTamayo, Eduardo1 aTamayo-Velasco, Alvaro1 aTaracido-Fernandez, Juan, Carlos1 aTeper, Alejandro1 aTorres-Tobar, Lilian1 aUrioste, Miguel1 aValencia-Ramos, Juan1 aYáñez, Zuleima1 aZarate, Ruth1 aNakanishi, Tomoko1 aPigazzini, Sara1 aDegenhardt, Frauke1 aButler-Laporte, Guillaume1 aMaya-Miles, Douglas1 aBujanda, Luis1 aBouysran, Youssef1 aPalom, Adriana1 aEllinghaus, David1 aMartínez-Bueno, Manuel1 aRolker, Selina1 aAmitrano, Sara1 aRoade, Luisa1 aFava, Francesca1 aSpinner, Christoph, D1 aPrati, Daniele1 aBernardo, David1 aGarcía, Federico1 aDarcis, Gilles1 aFernández-Cadenas, Israel1 aHolter, Jan, Cato1 aBanales, Jesus, M1 aFrithiof, Robert1 aDuga, Stefano1 aAsselta, Rosanna1 aPereira, Alexandre, C1 aRomero-Gómez, Manuel1 aNafría-Jiménez, Beatriz1 aHov, Johannes, R1 aMigeotte, Isabelle1 aRenieri, Alessandra1 aPlanas, Anna, M1 aLudwig, Kerstin, U1 aButi, Maria1 aRahmouni, Souad1 aAlarcón-Riquelme, Marta, E1 aSchulte, Eva, C1 aFranke, Andre1 aKarlsen, Tom, H1 aValenti, Luca1 aZeberg, Hugo1 aRichards, Brent1 aGanna, Andrea1 aBoada, Mercè1 aRojas, Itziar1 aRuiz, Agustín1 aSánchez, Pascual1 aReal, Luis, Miguel1 aGuillén-Navarro, Encarna1 aAyuso, Carmen1 aGonzález-Neira, Anna1 aRiancho, José, A1 aRojas-Martinez, Augusto1 aFlores, Carlos1 aLapunzina, Pablo1 aCarracedo, Ángel1 aSCOURGE Cohort Group1 aHOSTAGE Cohort Group1 aGRA@CE Cohort Group uhttps://www.clinbioinfosspa.es/content/novel-genes-and-sex-differences-covid-19-severity05409nas a2201477 4500008004100000022001400041245007800055210006900133260001200202300001400214490000700228520122900235653002601464653001401490653001101504653001501515653003501530653002001565653003801585100001901623700001901642700001801661700002301679700002401702700002301726700002101749700002801770700001801798700002501816700002401841700002701865700001801892700002301910700002001933700001501953700002201968700002001990700002702010700002102037700002202058700001802080700001902098700002702117700002002144700001902164700002002183700002102203700001702224700002102241700002302262700002002285700002202305700002002327700001802347700002302365700001802388700002102406700002602427700001902453700001702472700001802489700002402507700001902531700001602550700001702566700001602583700002102599700002102620700002102641700002102662700002202683700002202705700002102727700001602748700001702764700001502781700002102796700001702817700002402834700002202858700002002880700002402900700001802924700001602942700002302958700002102981700002403002700001703026700002603043700002403069700002503093700002403118700002203142700002103164700001703185700001903202700001803221700001803239700001303257700001703270700001603287700001903303700002703322700002003349700001703369700002203386700001903408700001903427700002603446700001903472700002903491700002103520700001603541700002203557700001603579700002003595700002403615700001903639700002403658700002203682700002003704700001803724710003303742710004903775856010703824 2021 eng d a1546-170X00aReporting guidelines for human microbiome research: the STORMS checklist.0 aReporting guidelines for human microbiome research the STORMS ch c2021 11 a1885-18920 v273 aThe particularly interdisciplinary nature of human microbiome research makes the organization and reporting of results spanning epidemiology, biology, bioinformatics, translational medicine and statistics a challenge. Commonly used reporting guidelines for observational or genetic epidemiology studies lack key features specific to microbiome studies. Therefore, a multidisciplinary group of microbiome epidemiology researchers adapted guidelines for observational and genetic studies to culture-independent human microbiome studies, and also developed new reporting elements for laboratory, bioinformatics and statistical analyses tailored to microbiome studies. The resulting tool, called 'Strengthening The Organization and Reporting of Microbiome Studies' (STORMS), is composed of a 17-item checklist organized into six sections that correspond to the typical sections of a scientific publication, presented as an editable table for inclusion in supplementary materials. The STORMS checklist provides guidance for concise and complete reporting of microbiome studies that will facilitate manuscript preparation, peer review, and reader comprehension of publications and comparative analysis of published results.
10aComputational Biology10aDysbiosis10aHumans10aMicrobiota10aObservational Studies as Topic10aResearch Design10aTranslational Science, Biomedical1 aMirzayi, Chloe1 aRenson, Audrey1 aZohra, Fatima1 aElsafoury, Shaimaa1 aGeistlinger, Ludwig1 aKasselman, Lora, J1 aEckenrode, Kelly1 avan de Wijgert, Janneke1 aLoughman, Amy1 aMarques, Francine, Z1 aMacIntyre, David, A1 aArumugam, Manimozhiyan1 aAzhar, Rimsha1 aBeghini, Francesco1 aBergstrom, Kirk1 aBhatt, Ami1 aBisanz, Jordan, E1 aBraun, Jonathan1 aBravo, Hector, Corrada1 aBuck, Gregory, A1 aBushman, Frederic1 aCasero, David1 aClarke, Gerard1 aCollado, Maria, Carmen1 aCotter, Paul, D1 aCryan, John, F1 aDemmer, Ryan, T1 aDevkota, Suzanne1 aElinav, Eran1 aEscobar, Juan, S1 aFettweis, Jennifer1 aFinn, Robert, D1 aFodor, Anthony, A1 aForslund, Sofia1 aFranke, Andre1 aFurlanello, Cesare1 aGilbert, Jack1 aGrice, Elizabeth1 aHaibe-Kains, Benjamin1 aHandley, Scott1 aHerd, Pamela1 aHolmes, Susan1 aJacobs, Jonathan, P1 aKarstens, Lisa1 aKnight, Rob1 aKnights, Dan1 aKoren, Omry1 aKwon, Douglas, S1 aLangille, Morgan1 aLindsay, Brianna1 aMcGovern, Dermot1 aMcHardy, Alice, C1 aMcWeeney, Shannon1 aMueller, Noel, T1 aNezi, Luigi1 aOlm, Matthew1 aPalm, Noah1 aPasolli, Edoardo1 aRaes, Jeroen1 aRedinbo, Matthew, R1 aRühlemann, Malte1 aSartor, Balfour1 aSchloss, Patrick, D1 aSchriml, Lynn1 aSegal, Eran1 aShardell, Michelle1 aSharpton, Thomas1 aSmirnova, Ekaterina1 aSokol, Harry1 aSonnenburg, Justin, L1 aSrinivasan, Sujatha1 aThingholm, Louise, B1 aTurnbaugh, Peter, J1 aUpadhyay, Vaibhav1 aWalls, Ramona, L1 aWilmes, Paul1 aYamada, Takuji1 aZeller, Georg1 aZhang, Mingyu1 aZhao, Ni1 aZhao, Liping1 aBao, Wenjun1 aCulhane, Aedin1 aDevanarayan, Viswanath1 aDopazo, Joaquin1 aFan, Xiaohui1 aFischer, Matthias1 aJones, Wendell1 aKusko, Rebecca1 aMason, Christopher, E1 aMercer, Tim, R1 aSansone, Susanna-Assunta1 aScherer, Andreas1 aShi, Leming1 aThakkar, Shraddha1 aTong, Weida1 aWolfinger, Russ1 aHunter, Christopher1 aSegata, Nicola1 aHuttenhower, Curtis1 aDowd, Jennifer, B1 aJones, Heidi, E1 aWaldron, Levi1 aGenomic Standards Consortium1 aMassive Analysis and Quality Control Society uhttps://www.clinbioinfosspa.es/content/reporting-guidelines-human-microbiome-research-storms-checklist01430nas a2200481 4500008004100000022001400041245007200055210006900127260001500196300001400211490000800225653000900233653002400242653003700266653003400303653001900337653001000356653002900366653001100395653002200406653002800428653001100456653001600467653001300483100002100496700002100517700002800538700002700566700002600593700002000619700002000639700002000659700002900679700002000708700002600728700002800754700002200782700002400804700002000828700002100848700002500869856005400894 2017 eng d a1533-440600aGGPS1 Mutation and Atypical Femoral Fractures with Bisphosphonates.0 aGGPS1 Mutation and Atypical Femoral Fractures with Bisphosphonat c2017 05 04 a1794-17950 v37610aAged10aAmino Acid Sequence10aBone Density Conservation Agents10aDimethylallyltranstransferase10aDiphosphonates10aExome10aFarnesyltranstransferase10aFemale10aFemoral Fractures10aGeranyltranstransferase10aHumans10aMiddle Aged10amutation1 aRoca-Ayats, Neus1 aBalcells, Susana1 aGarcia-Giralt, Natàlia1 aFalcó-Mascaró, Maite1 aMartínez-Gil, Núria1 aAbril, Josep, F1 aUrreizti, Roser1 aDopazo, Joaquin1 aQuesada-Gómez, José, M1 aNogués, Xavier1 aMellibovsky, Leonardo1 aPrieto-Alhambra, Daniel1 aDunford, James, E1 aJavaid, Muhammad, K1 aRussell, Graham1 aGrinberg, Daniel1 aDíez-Pérez, Adolfo uhttp://www.nejm.org/doi/full/10.1056/NEJMc161280402565nas a2200541 4500008004100000022001400041245008600055210006900141260001200210300001200222490000700234520094000241653002801181653001201209653002801221653001001249653004201259653001301301653001101314653003101325653000901356653001301365653001401378653003301392653002801425100002201453700001701475700002501492700003201517700002201549700001801571700002101589700002001610700002401630700003401654700001901688700002001707700002901727700002501756700001901781700002001800700001901820700001801839700001701857700001901874700001901893856011101912 2017 eng d a1098-100400aMutations in TRAPPC11 are associated with a congenital disorder of glycosylation.0 aMutations in TRAPPC11 are associated with a congenital disorder c2017 02 a148-1510 v383 aCongenital disorders of glycosylation (CDG) are a heterogeneous and rapidly growing group of diseases caused by abnormal glycosylation of proteins and/or lipids. Mutations in genes involved in the homeostasis of the endoplasmic reticulum (ER), the Golgi apparatus (GA), and the vesicular trafficking from the ER to the ER-Golgi intermediate compartment (ERGIC) have been found to be associated with CDG. Here, we report a patient with defects in both N- and O-glycosylation combined with a delayed vesicular transport in the GA due to mutations in TRAPPC11, a subunit of the TRAPPIII complex. TRAPPIII is implicated in the anterograde transport from the ER to the ERGIC as well as in the vesicle export from the GA. This report expands the spectrum of genetic alterations associated with CDG, providing new insights for the diagnosis and the understanding of the physiopathological mechanisms underlying glycosylation disorders.
10aAbnormalities, Multiple10aAlleles10aAmino Acid Substitution10aBrain10aCongenital Disorders of Glycosylation10aGenotype10aHumans10aMagnetic Resonance Imaging10aMale10amutation10aPhenotype10aVesicular Transport Proteins10aWhole Genome Sequencing1 aMatalonga, Leslie1 aBravo, Miren1 aSerra-Peinado, Carla1 aGarcía-Pelegrí, Elisabeth1 aUgarteburu, Olatz1 aVidal, Silvia1 aLlambrich, Maria1 aQuintana, Ester1 aFuster-Jorge, Pedro1 aGonzalez-Bravo, Maria, Nieves1 aBeltran, Sergi1 aDopazo, Joaquin1 aGarcia-Garcia, Francisco1 aFoulquier, François1 aMatthijs, Gert1 aMills, Philippa1 aRibes, Antonia1 aEgea, Gustavo1 aBriones, Paz1 aTort, Frederic1 aGirós, Marisa uhttps://www.clinbioinfosspa.es/content/mutations-trappc11-are-associated-congenital-disorder-glycosylation01158nas a2200313 4500008004100000245011100041210006900152260001600221490000600237100002000243700003400263700002700297700002700324700002200351700002400373700002500397700002100422700001900443700002000462700002300482700002200505700001900527700003300546700002000579700002300599700002000622700002100642856018100663 2016 eng d00aExtension of human lncRNA transcripts by RACE coupled with long-read high-throughput sequencing (RACE-Seq)0 aExtension of human lncRNA transcripts by RACE coupled with longr cJan-11-20160 v71 aLagarde, Julien1 aUszczynska-Ratajczak, Barbara1 aSantoyo-López, Javier1 aGonzalez, Jose, Manuel1 aTapanari, Electra1 aMudge, Jonathan, M.1 aSteward, Charles, A.1 aWilming, Laurens1 aTanzer, Andrea1 aHowald, Cédric1 aChrast, Jacqueline1 aVela-Boza, Alicia1 aRueda, Antonio1 aLopez-Domingo, Francisco, J.1 aDopazo, Joaquin1 aReymond, Alexandre1 aGuigó, Roderic1 aHarrow, Jennifer uhttp://www.nature.com/articles/ncomms12339http://www.nature.com/articles/ncomms12339.pdfhttp://www.nature.com/articles/ncomms12339.pdfhttp://www.nature.com/articles/ncomms1233902094nas a2200349 4500008004100000022001400041245011200055210006900167260000900236300001000245490000600255520101800261100002001279700003401299700002701333700002701360700002201387700002301409700002401432700002101456700001901477700002001496700002301516700002201539700001901561700003301580700002001613700002301633700002001656700002101676856004701697 2016 eng d a2041-172300aExtension of human lncRNA transcripts by RACE coupled with long-read high-throughput sequencing (RACE-Seq).0 aExtension of human lncRNA transcripts by RACE coupled with longr c2016 a123390 v73 aLong non-coding RNAs (lncRNAs) constitute a large, yet mostly uncharacterized fraction of the mammalian transcriptome. Such characterization requires a comprehensive, high-quality annotation of their gene structure and boundaries, which is currently lacking. Here we describe RACE-Seq, an experimental workflow designed to address this based on RACE (rapid amplification of cDNA ends) and long-read RNA sequencing. We apply RACE-Seq to 398 human lncRNA genes in seven tissues, leading to the discovery of 2,556 on-target, novel transcripts. About 60% of the targeted loci are extended in either 5’ or 3’, often reaching genomic hallmarks of gene boundaries. Analysis of the novel transcripts suggests that lncRNAs are as long, have as many exons and undergo as much alternative splicing as protein-coding genes, contrary to current assumptions. Overall, we show that RACE-Seq is an effective tool to annotate an organism’s deep transcriptome, and compares favourably to other targeted sequencing techniques.1 aLagarde, Julien1 aUszczynska-Ratajczak, Barbara1 aSantoyo-López, Javier1 aGonzalez, Jose, Manuel1 aTapanari, Electra1 aMudge, Jonathan, M1 aSteward, Charles, A1 aWilming, Laurens1 aTanzer, Andrea1 aHowald, Cédric1 aChrast, Jacqueline1 aVela-Boza, Alicia1 aRueda, Antonio1 aLópez-Domingo, Francisco, J1 aDopazo, Joaquin1 aReymond, Alexandre1 aGuigó, Roderic1 aHarrow, Jennifer uhttp://www.nature.com/articles/ncomms1233902961nas a2200505 4500008004100000022001400041245008800055210006900143260001300212300001000225490000900235520151700244653001501761653001701776653001001793653002101803653002101824653001001845653001101855653004201866653001101908653001101919653002801930653000901958653001301967653001301980653001401993653001402007653002302021100002002044700002102064700001902085700002902104700002302133700002202156700002202178700001902200700001902219700002002238700001702258700002302275700002102298700002102319856011502340 2016 eng d a1552-483300aScreening of CD96 and ASXL1 in 11 patients with Opitz C or Bohring-Opitz syndromes.0 aScreening of CD96 and ASXL1 in 11 patients with Opitz C or Bohri c2016 Jan a24-310 v170A3 aOpitz C trigonocephaly (or Opitz C syndrome, OTCS) and Bohring-Opitz syndrome (BOS or C-like syndrome) are two rare genetic disorders with phenotypic overlap. The genetic causes of these diseases are not understood. However, two genes have been associated with OTCS or BOS with dominantly inherited de novo mutations. Whereas CD96 has been related to OTCS (one case) and to BOS (one case), ASXL1 has been related to BOS only (several cases). In this study we analyze CD96 and ASXL1 in a group of 11 affected individuals, including 2 sibs, 10 of them were diagnosed with OTCS, and one had a BOS phenotype. Exome sequences were available on six patients with OTCS and three parent pairs. Thus, we could analyze the CD96 and ASXL1 sequences in these patients bioinformatically. Sanger sequencing of all exons of CD96 and ASXL1 was carried out in the remaining patients. Detailed scrutiny of the sequences and assessment of variants allowed us to exclude putative pathogenic and private mutations in all but one of the patients. In this patient (with BOS) we identified a de novo mutation in ASXL1 (c.2100dupT). By nature and location within the gene, this mutation resembles those previously described in other BOS patients and we conclude that it may be responsible for the condition. Our results indicate that in 10 of 11, the disease (OTCS or BOS) cannot be explained by small changes in CD96 or ASXL1. However, the cohort is too small to make generalizations about the genetic etiology of these diseases.
10aAdolescent10aAntigens, CD10aChild10aChild, Preschool10aCraniosynostoses10aExome10aFemale10aHigh-Throughput Nucleotide Sequencing10aHumans10aInfant10aIntellectual Disability10aMale10amutation10aPedigree10aPhenotype10aPrognosis10aRepressor Proteins1 aUrreizti, Roser1 aRoca-Ayats, Neus1 aTrepat, Judith1 aGarcia-Garcia, Francisco1 aAlemán, Alejandro1 aOrteschi, Daniela1 aMarangi, Giuseppe1 aNeri, Giovanni1 aOpitz, John, M1 aDopazo, Joaquin1 aCormand, Bru1 aVilageliu, Lluïsa1 aBalcells, Susana1 aGrinberg, Daniel uhttps://www.clinbioinfosspa.es/content/screening-cd96-and-asxl1-11-patients-opitz-c-or-bohring-opitz-syndromes03200nas a2200517 4500008004100000022001400041245017300055210006900228260001300297300001000310490000700320520152000327653003201847653003101879653001601910653001101926653000901937653002301946653002801969653001501997653002002012100002802032700002302060700001602083700002402099700002502123700002102148700001902169700002202188700002102210700002002231700002002251700002202271700001902293700002102312700002802333700002202361700002002383700001702403700002702420700002602447700002102473700002402494700002802518856013602546 2014 eng d a1098-100400aTwo novel mutations in the BCKDK (branched-chain keto-acid dehydrogenase kinase) gene are responsible for a neurobehavioral deficit in two pediatric unrelated patients.0 aTwo novel mutations in the BCKDK branchedchain ketoacid dehydrog c2014 Apr a470-70 v353 aInactivating mutations in the BCKDK gene, which codes for the kinase responsible for the negative regulation of the branched-chain α-keto acid dehydrogenase complex (BCKD), have recently been associated with a form of autism in three families. In this work, two novel exonic BCKDK mutations, c.520C>G/p.R174G and c.1166T>C/p.L389P, were identified at the homozygous state in two unrelated children with persistently reduced body fluid levels of branched-chain amino acids (BCAAs), developmental delay, microcephaly, and neurobehavioral abnormalities. Functional analysis of the mutations confirmed the missense character of the c.1166T>C change and showed a splicing defect r.[520c>g;521_543del]/p.R174Gfs1*, for c.520C>G due to the presence of a new donor splice site. Mutation p.L389P showed total loss of kinase activity. Moreover, patient-derived fibroblasts showed undetectable (p.R174Gfs1*) or barely detectable (p.L389P) levels of BCKDK protein and its phosphorylated substrate (phospho-E1α), resulting in increased BCKD activity and the very rapid BCAA catabolism manifested by the patients' clinical phenotype. Based on these results, a protein-rich diet plus oral BCAA supplementation was implemented in the patient homozygous for p.R174Gfs1*. This treatment normalized plasma BCAA levels and improved growth, developmental and behavioral variables. Our results demonstrate that BCKDK mutations can result in neurobehavioral deficits in humans and support the rationale for dietary intervention.
10aAmino Acids, Branched-Chain10aDevelopmental Disabilities10aFibroblasts10aHumans10aMale10aMutation, Missense10aNervous System Diseases10aPediatrics10aProtein Kinases1 aGarcía-Cazorla, Angels1 aOyarzabal, Alfonso1 aFort, Joana1 aRobles, Concepción1 aCastejón, Esperanza1 aRuiz-Sala, Pedro1 aBodoy, Susanna1 aMerinero, Begoña1 aLopez-Sala, Anna1 aDopazo, Joaquin1 aNunes, Virginia1 aUgarte, Magdalena1 aArtuch, Rafael1 aPalacín, Manuel1 aRodríguez-Pombo, Pilar1 aAlcaide, Patricia1 aNavarrete, Rosa1 aSanz, Paloma1 aFont-Llitjós, Mariona1 aVilaseca, Ma, Antonia1 aOrmaizabal, Aida1 aPristoupilova, Anna1 aAgulló, Sergi, Beltran uhttps://www.clinbioinfosspa.es/content/two-novel-mutations-bckdk-branched-chain-keto-acid-dehydrogenase-kinase-gene-are-responsible02611nas a2200313 4500008004100000022001400041245017200055210006900227260001600296300001000312490000700322520157100329100002801900700002301928700001601951700002401967700002501991700002102016700001902037700002202056700002102078700002102099700002002120700002202140700001902162700002102181700002802202856006702230 2014 eng d a1098-100400aTwo Novel Mutations in the BCKDK Gene (Branched-Chain Keto-Acid Dehydrogenase Kinase) are Responsible of a Neurobehavioral Deficit in two Pediatric Unrelated Patients.0 aTwo Novel Mutations in the BCKDK Gene BranchedChain KetoAcid Deh c2014 Jan 21 a470-70 v353 aInactivating mutations in the BCKDK gene, which codes for the kinase responsible for the negative regulation of the branched-chain keto-acid dehydrogenase complex (BCKD), have recently been associated with a form of autism in three families. In this work, two novel exonic BCKDK mutations, c.520C>G/p.R174G and c.1166T>C/p.L389P, were identified at the homozygous state in two unrelated children with persistently reduced body fluid levels of branched-chain amino acids (BCAAs), developmental delay, microcephaly and neurobehavioral abnormalities. Functional analysis of the mutations confirmed the missense character of the c.1166T>C change and showed a splicing defect r.[520c>g;521_543del]/p.R174Gfs1*, for c.520C>G due to the presence of a new donor splice site. Mutation p.L389P showed total loss of kinase activity. Moreover, patient-derived fibroblasts showed undetectable (p.R174Gfs1*) or barely detectable (p.L389P) levels of BCKDK protein and its phosphorylated substrate (phospho-E1α), resulting in increased BCKD activity and the very rapid BCAA catabolism manifested by the patients’ clinical phenotype. Based on these results, a protein-rich diet plus oral BCAA supplementation was implemented in the patient homozygous for p.R174Gfs1*. This treatment normalized plasma BCAA levels and improved growth, developmental and behavioral variables. Our results demonstrate that BCKDK mutations can result in neurobehavioral deficits in humans and support the rationale for dietary intervention. This article is protected by copyright. All rights reserved.1 aGarcía-Cazorla, Angels1 aOyarzabal, Alfonso1 aFort, Joana1 aRobles, Concepción1 aCastejón, Esperanza1 aRuiz-Sala, Pedro1 aBodoy, Susanna1 aMerinero, Begoña1 aLopez-Sala, Anna1 aDopazo, Joaquín1 aNunes, Virginia1 aUgarte, Magdalena1 aArtuch, Rafael1 aPalacín, Manuel1 aRodríguez-Pombo, Pilar uhttp://onlinelibrary.wiley.com/doi/10.1002/humu.22513/abstract03690nas a2200937 4500008004100000022001400041245007800055210006900133260001300202300001100215490000600226520100100232653002601233653003201259653002301291653003801314653001301352653002601365653002401391110002301415700002301438700001901461700001801480700002501498700001801523700001901541700002101560700001601581700001601597700002901613700001701642700001901659700002201678700002501700700003101725700002501756700001601781700001901797700001601816700002001832700002601852700002501878700001901903700001901922700001801941700001901959700001401978700001901992700002002011700002002031700001702051700002002068700002102088700002402109700002102133700002102154700002102175700002202196700001802218700002002236700002302256700002402279700002502303700002002328700002002348700002002368700002002388700002202408700002002430700002302450700001702473700001602490700002702506700001802533700001802551700001902569700002002588700001802608700002302626856010302649 2008 eng d a1477-405400aInteroperability with Moby 1.0--it's better than sharing your toothbrush!0 aInteroperability with Moby 10its better than sharing your toothb c2008 May a220-310 v93 aThe BioMoby project was initiated in 2001 from within the model organism database community. It aimed to standardize methodologies to facilitate information exchange and access to analytical resources, using a consensus driven approach. Six years later, the BioMoby development community is pleased to announce the release of the 1.0 version of the interoperability framework, registry Application Programming Interface and supporting Perl and Java code-bases. Together, these provide interoperable access to over 1400 bioinformatics resources worldwide through the BioMoby platform, and this number continues to grow. Here we highlight and discuss the features of BioMoby that make it distinct from other Semantic Web Service and interoperability initiatives, and that have been instrumental to its deployment and use by a wide community of bioinformatics service providers. The standard, client software, and supporting code libraries are all freely available at http://www.biomoby.org/.
10aComputational Biology10aDatabase Management Systems10aDatabases, Factual10aInformation Storage and Retrieval10aInternet10aProgramming Languages10aSystems Integration1 aBioMoby Consortium1 aWilkinson, Mark, D1 aSenger, Martin1 aKawas, Edward1 aBruskiewich, Richard1 aGouzy, Jerome1 aNoirot, Celine1 aBardou, Philippe1 aNg, Ambrose1 aHaase, Dirk1 aSaiz, Enrique, de Andres1 aWang, Dennis1 aGibbons, Frank1 aGordon, Paul, M K1 aSensen, Christoph, W1 aCarrasco, Jose, Manuel Rod1 aFernández, José, M1 aShen, Lixin1 aLinks, Matthew1 aNg, Michael1 aOpushneva, Nina1 aNeerincx, Pieter, B T1 aLeunissen, Jack, A M1 aErnst, Rebecca1 aTwigger, Simon1 aUsadel, Bjorn1 aGood, Benjamin1 aWong, Yan1 aStein, Lincoln1 aCrosby, William1 aKarlsson, Johan1 aRoyo, Romina1 aPárraga, Iván1 aRamírez, Sergio1 aGelpi, Josep, Lluis1 aTrelles, Oswaldo1 aPisano, David, G1 aJimenez, Natalia1 aKerhornou, Arnaud1 aRosset, Roman1 aZamacola, Leire1 aTárraga, Joaquín1 aHuerta-Cepas, Jaime1 aCarazo, Jose, María1 aDopazo, Joaquin1 aGuigó, Roderic1 aNavarro, Arcadi1 aOrozco, Modesto1 aValencia, Alfonso1 aClaros, Gonzalo1 aPérez, Antonio, J1 aAldana, Jose1 aRojano, Mar1 aCruz, Raul, Fernandez-1 aNavas, Ismael1 aSchiltz, Gary1 aFarmer, Andrew1 aGessler, Damian1 aSchoof, Heiko1 aGroscurth, Andreas uhttps://www.clinbioinfosspa.es/content/interoperability-moby-10-its-better-sharing-your-toothbrush03310nas a2200841 4500008004100000245008100041210007100122300001100193490000600204520100100210653007501211653010801286100002201394700001501416700001401431700002001445700001401465700001501479700001501494700001101509700001401520700001401534700001301548700001601561700001901577700001901596700002101615700002201636700001301658700001401671700001101685700001801696700002101714700002201735700001401757700001601771700001501787700001301802700001301815700001401828700001501842700001701857700001301874700001601887700001601903700001801919700001601937700001901953700001601972700001801988700001502006700001702021700001602038700002102054700001902075700001502094700001402109700001602123700001502139700001702154700001902171700001802190700001502208700001902223700002602242700001402268700001602282700001502298700001602313700001502329700001802344856010602362 2008 eng d00aInteroperability with Moby 1.0–it’s better than sharing your toothbrush!0 aInteroperability with Moby 10–it s better than sharing your toot a220-310 v93 aThe BioMoby project was initiated in 2001 from within the model organism database community. It aimed to standardize methodologies to facilitate information exchange and access to analytical resources, using a consensus driven approach. Six years later, the BioMoby development community is pleased to announce the release of the 1.0 version of the interoperability framework, registry Application Programming Interface and supporting Perl and Java code-bases. Together, these provide interoperable access to over 1400 bioinformatics resources worldwide through the BioMoby platform, and this number continues to grow. Here we highlight and discuss the features of BioMoby that make it distinct from other Semantic Web Service and interoperability initiatives, and that have been instrumental to its deployment and use by a wide community of bioinformatics service providers. The standard, client software, and supporting code libraries are all freely available at http://www.biomoby.org/.
10aComputational Biology/*methods *Database Management Systems *Databases10aFactual Information Storage and Retrieval/*methods *Internet *Programming Languages Systems Integration1 aWilkinson, M., D.1 aSenger, M.1 aKawas, E.1 aBruskiewich, R.1 aGouzy, J.1 aNoirot, C.1 aBardou, P.1 aNg, A.1 aHaase, D.1 aEde, Saiz1 aWang, D.1 aGibbons, F.1 aGordon, P., M.1 aSensen, C., W.1 aCarrasco, J., M.1 aFernandez, J., M.1 aShen, L.1 aLinks, M.1 aNg, M.1 aOpushneva, N.1 aNeerincx, P., B.1 aLeunissen, J., A.1 aErnst, R.1 aTwigger, S.1 aUsadel, B.1 aGood, B.1 aWong, Y.1 aStein, L.1 aCrosby, W.1 aKarlsson, J.1 aRoyo, R.1 aParraga, I.1 aRamirez, S.1 aGelpi, J., L.1 aTrelles, O.1 aPisano, D., G.1 aJimenez, N.1 aKerhornou, A.1 aRosset, R.1 aZamacola, L.1 aTarraga, J.1 aHuerta-Cepas, J.1 aCarazo, J., M.1 aDopazo, J.1 aGuigo, R.1 aNavarro, A.1 aOrozco, M.1 aValencia, A.1 aClaros, M., G.1 aPerez, A., J.1 aAldana, J.1 aRojano, M., M.1 aCruz, Fernandez-Santa1 aNavas, I.1 aSchiltz, G.1 aFarmer, A.1 aGessler, D.1 aSchoof, H.1 aGroscurth, A. uhttp://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&dopt=Citation&list_uids=1823880403226nas a2200433 4500008004100000245012400041210006900165300001100234490000700245520156900252653002601821653003101847653001201878653013601890653023502026653003902261100002202300700002202322700001802344700001702362700001602379700001402395700001502409700001902424700001402443700001602457700002402473700002302497700002302520700001802543700001602561700002302577700001602600700002002616700001502636700001902651700001602670856010602686 2007 eng d00aAssociation study of 69 genes in the ret pathway identifies low-penetrance loci in sporadic medullary thyroid carcinoma0 aAssociation study of 69 genes in the ret pathway identifies lowp a9561-70 v673 aTo date, few association studies have been done to better understand the genetic basis for the development of sporadic medullary thyroid carcinoma (sMTC). To identify additional low-penetrance genes, we have done a two-stage case-control study in two European populations using high-throughput genotyping. We selected 417 single nucleotide polymorphisms (SNP) belonging to 69 genes either related to RET signaling pathway/functions or involved in key processes for cancer development. TagSNPs and functional variants were included where possible. These SNPs were initially studied in the largest known series of sMTC cases (n = 266) and controls (n = 422), all of Spanish origin. In stage II, an independent British series of 155 sMTC patients and 531 controls was included to validate the previous results. Associations were assessed by an exhaustive analysis of individual SNPs but also considering gene- and linkage disequilibrium-based haplotypes. This strategy allowed us to identify seven low-penetrance genes, six of them (STAT1, AURKA, BCL2, CDKN2B, CDK6, and COMT) consistently associated with sMTC risk in the two case-control series and a seventh (HRAS) with individual SNPs and haplotypes associated with sMTC in the Spanish data set. The potential role of CDKN2B was confirmed by a functional assay showing a role of a SNP (rs7044859) in the promoter region in altering the binding of the transcription factor HNF1. These results highlight the utility of association studies using homogeneous series of cases for better understanding complex diseases.10a80 and over Carcinoma10aAdolescent Adult Aged Aged10aGenetic10aGenetic Proto-Oncogene Proteins c-ret/*genetics/metabolism Signal Transduction Thyroid Neoplasms/*genetics/metabolism Transcription10aMedullary/*genetics/metabolism Case-Control Studies Cyclin-Dependent Kinase Inhibitor p15/biosynthesis/genetics Female Genetic Predisposition to Disease Germ-Line Mutation Haplotypes Humans Male Middle Aged Penetrance Polymorphism10aSingle Nucleotide Promoter Regions1 aRuiz-Llorente, S.1 aMontero-Conde, C.1 aMilne, R., L.1 aMoya, C., M.1 aCebrian, A.1 aLeton, R.1 aCascon, A.1 aMercadillo, F.1 aLanda, I.1 aBorrego, S.1 ade Nanclares, Perez1 aAlvarez-Escola, C.1 aDiaz-Perez, J., A.1 aCarracedo, A.1 aUrioste, M.1 aGonzalez-Neira, A.1 aBenitez, J.1 aSantisteban, P.1 aDopazo, J.1 aPonder, B., A.1 aRobledo, M. uhttp://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&dopt=Citation&list_uids=1790906702881nas a2200397 4500008004100000245016800041210006900209300001200278490000700290520143600297653010101733653002201834653001001856653008301866653003301949653003301982653003302015653003202048653005102080100001602131700002102147700001502168700001602183700001602199700001602215700001602231700001802247700001602265700001402281700001302295700002102308700001502329700001702344700001602361856010602377 2005 eng d00aA predictor based on the somatic genomic changes of the BRCA1/BRCA2 breast cancer tumors identifies the non-BRCA1/BRCA2 tumors with BRCA1 promoter hypermethylation0 apredictor based on the somatic genomic changes of the BRCA1BRCA2 a1146-530 v113 aThe genetic changes underlying in the development and progression of familial breast cancer are poorly understood. To identify a somatic genetic signature of tumor progression for each familial group, BRCA1, BRCA2, and non-BRCA1/BRCA2 (BRCAX) tumors, by high-resolution comparative genomic hybridization, we have analyzed 77 tumors previously characterized for BRCA1 and BRCA2 germ line mutations. Based on a combination of the somatic genetic changes observed at the six most different chromosomal regions and the status of the estrogen receptor, we developed using random forests a molecular classifier, which assigns to a given tumor a probability to belong either to the BRCA1 or to the BRCA2 class. Because 76.5% (26 of 34) of the BRCAX cases were classified with our predictor to the BRCA1 class with a probability of >50%, we analyzed the BRCA1 promoter region for aberrant methylation in all the BRCAX cases. We found that 15 of the 34 BRCAX analyzed tumors had hypermethylation of the BRCA1 gene. When we considered the predictor, we observed that all the cases with this epigenetic event were assigned to the BRCA1 class with a probability of >50%. Interestingly, 84.6% of the cases (11 of 13) assigned to the BRCA1 class with a probability >80% had an aberrant methylation of the BRCA1 promoter. This fact suggests that somatic BRCA1 inactivation could modify the profile of tumor progression in most of the BRCAX cases.10aBRCA1 Protein/*genetics BRCA2 Protein/*genetics Breast Neoplasms/*genetics/pathology Chromosomes10aGenetic/*genetics10aHuman10aHuman Humans Male Mutation Nucleic Acid Hybridization/methods Promoter Regions10aPair 12/genetics Chromosomes10aPair 15/genetics Chromosomes10aPair 18/genetics Chromosomes10aPair 2/genetics Chromosomes10aPair 8/genetics *DNA Methylation Female Genome1 aAlvarez, S.1 aDiaz-Uriarte, R.1 aOsorio, A.1 aBarroso, A.1 aMelchor, L.1 aPaz, M., F.1 aHonrado, E.1 aRodriguez, R.1 aUrioste, M.1 aValle, L.1 aDiez, O.1 aCigudosa, J., C.1 aDopazo, J.1 aEsteller, M.1 aBenitez, J. uhttp://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&dopt=Citation&list_uids=15709182