German Network for Bioinformatics Infrastructure: Difference between revisions

*Bioinformatics for Proteomics (BioInfra.Prot):<ref name="autogenerated1">[https:{{cite journal| pmid=28606611 | doi=10.1016//wwwj.ncbijbiotec.nlm2017.nih06.gov/pubmed/28606611005 | volume=261 | title=BioInfra.Prot: A comprehensive proteomics workflow including data standardization, protein inference, expression analysis and data publication by| year=2017 | journal=J Biotechnol | pages=116–125 | last1 = Turewicz et| al.,first1 2017]= M | last2 = Kohl | first2 = M | last3 = Ahrens | first3 = M | last4 = Mayer | first4 = G | last5 = Uszkoreit | first5 = J | last6 = Naboulsi | first6 = W | last7 = Bracht | first7 = T | last8 = Megger | first8 = DA | last9 = Sitek | first9 = B | last10 = Marcus | first10 = K | last11 = Eisenacher | first11 = M}}</ref>

de.NBI develops and maintains the five large databases [[SILVA]],<ref>[https:{{cite journal| pmid=28648396 | doi=10.1016//wwwj.ncbijbiotec.nlm2017.nih06.gov/pubmed/286483961198 | volume=261 | title=25 years of serving the community with ribosomal RNA gene reference databases and tools by| year=2017 | journal=J Biotechnol | pages=169–176 | last1 = Glöckner et| al.,first1 2017]= FO | last2 = Yilmaz | first2 = P | last3 = Quast | first3 = C | last4 = Gerken | first4 = J | last5 = Beccati | first5 = A | last6 = Ciuprina | first6 = A | last7 = Bruns | first7 = G | last8 = Yarza | first8 = P | last9 = Peplies | first9 = J | last10 = Westram | first10 = R | last11 = Ludwig | first11 = W}}</ref> [[PANGAEA]],<ref>[https:{{cite journal| pmid=28743591 | doi=10.1016//wwwj.ncbijbiotec.nlm2017.nih07.gov/pubmed/28743591016 | volume=261 | title=Terminology supported archiving and publication of environmental science data in PANGAEA by| year=2017 | journal=J Biotechnol | pages=177–186 | last1 = Diepenbroek et| al.,first1 2017]= M | last2 = Schindler | first2 = U | last3 = Huber | first3 = R | last4 = Pesant | first4 = S | last5 = Stocker | first5 = M | last6 = Felden | first6 = J | last7 = Buss | first7 = M | last8 = Weinrebe | first8 = M}}</ref> [[BacDive]],<ref>[https:{{cite journal| pmid=28487186 | doi=10.1016//wwwj.ncbijbiotec.nlm2017.nih05.gov/pubmed/28487186004 | volume=261 | title=Mobilization and integration of bacterial phenotypic data-Enabling next generation biodiversity analysis through the BacDive metadatabase. by| year=2017 | journal=J Biotechnol | pages=187–193 | last1 = Reimer et| al.,first1 2017]= LC | last2 = Söhngen | first2 = C | last3 = Vetcininova | first3 = A | last4 = Overmann | first4 = J}}</ref> [[ProteinPlus]]<ref>[https:{{cite journal| pmid=28610996 | doi=10.1016//wwwj.ncbijbiotec.nlm2017.nih06.gov/pubmed/28610996004 | volume=261 | title=From cheminformatics to structure-based design: Web services and desktop applications based on the NAOMI library by| year=2017 | journal=J Biotechnol | pages=207–214 | last1 = Bietz et| al.,first1 2017]= S | last2 = Inhester | first2 = T | last3 = Lauck | first3 = F | last4 = Sommer | first4 = K | last5 = von Behren | first5 = MM | last6 = Fährrolfes | first6 = R | last7 = Flachsenberg | first7 = F | last8 = Meyder | first8 = A | last9 = Nittinger | first9 = E | last10 = Otto | first10 = T | last11 = Hilbig | first11 = M | last12 = Schomburg | first12 = KT | last13 = Volkamer | first13 = A | last14 = Rarey | first14 = M}}</ref> and [[BRENDA]].<ref>[https:/{{cite journal| pmid=28438579 | doi=10.1016/wwwj.ncbijbiotec.nlm2017.nih04.gov/pubmed/28438579020 | volume=261 | title=The BRENDA enzyme information system-From a database to an expert system. by| year=2017 | journal=J Biotechnol | pages=194–206 | last1 = Schomburg et| al.,first1 2017]= I | last2 = Jeske | first2 = L | last3 = Ulbrich | first3 = M | last4 = Placzek | first4 = S | last5 = Chang | first5 = A | last6 = Schomburg | first6 = D}}</ref> They provide access to ribosomal RNA genes from all three domains of life (SILVA), georeferenced data from earth system research (PANGAEA), strain-linked information on the different aspects of bacterial and archaeal biodiversity (BacDive), protein structures (ProteinPlus) and to comprehensive enzyme information (BRENDA).

de.NBI develops and supplies about 100 bioinformatics tools for the German and global life sciences community, e.g. [[Galaxy (computational biology)]]/useGalaxy.eu (Workflow engine for all Freiburg RNA Tools),<ref>[https:{{cite journal| pmid=28554830 | doi=10.1016//wwwj.ncbijbiotec.nlm2017.nih05.gov/pubmed/28554830019 | volume=261 | title=RNA-bioinformatics: Tools, services and databases for the analysis of RNA-based regulation by| year=2017 | journal=J Biotechnol | pages=76–84 | last1 = Backofen et| al.,first1 2017]= R | last2 = Engelhardt | first2 = J | last3 = Erxleben | first3 = A | last4 = Fallmann | first4 = J | last5 = Grüning | first5 = B | last6 = Ohler | first6 = U | last7 = Rajewsky | first7 = N | last8 = Stadler | first8 = PF}}</ref> EDGAR (Comparative Genome Analyses Plattform),<ref>[https:/{{cite journal| pmid=28705636 | doi=10.1016/wwwj.ncbijbiotec.nlm2017.nih07.gov/pubmed/28705636010 | volume=261 | title=A review of bioinformatics platforms for comparative genomics. Recent developments of the EDGAR 2.0 platform and its utility for taxonomic and phylogenetic studies by| year=2017 | journal=J Biotechnol | pages=2–9 | last1 = Yu et| al.,first1 2017]= J | last2 = Blom | first2 = J | last3 = Glaeser | first3 = SP | last4 = Jaenicke | first4 = S | last5 = Juhre | first5 = T | last6 = Rupp | first6 = O | last7 = Schwengers | first7 = O | last8 = Spänig | first8 = S | last9 = Goesmann | first9 = A}}</ref> [[KNIME]] (Workflow engine),<ref>[https:{{cite journal| pmid=28757290 | doi=10.1016//wwwj.ncbijbiotec.nlm2017.nih07.gov/pubmed/28757290028 | volume=261 | title=KNIME for reproducible cross-___domain analysis of life science data by| year=2017 | journal=J Biotechnol | pages=149–156 | last1 = Fillbrunn et| al.,first1 2017]= A | last2 = Dietz | first2 = C | last3 = Pfeuffer | first3 = J | last4 = Rahn | first4 = R | last5 = Landrum | first5 = GA | last6 = Berthold | first6 = MR}}</ref> [[OpenMS]] (Open-source software C++ library for LC/MS data management and analyses),<ref>[https:{{cite journal| pmid=28559010 | doi=10.1016//wwwj.ncbijbiotec.nlm2017.nih05.gov/pubmed/28559010016 | volume=261 | title=OpenMS - A platform for reproducible analysis of mass spectrometry data by| year=2017 | journal=J Biotechnol | pages=142–148 | last1 = Pfeuffer et| al.,first1 2017]= J | last2 = Sachsenberg | first2 = T | last3 = Alka | first3 = O | last4 = Walzer | first4 = M | last5 = Fillbrunn | first5 = A | last6 = Nilse | first6 = L | last7 = Schilling | first7 = O | last8 = Reinert | first8 = K | last9 = Kohlbacher | first9 = O}}</ref> [[SeqAN]] (Open source [[C++]] library of efficient algorithms and data structures),<ref>[https:{{cite journal| pmid=28888961 | doi=10.1016//wwwj.ncbijbiotec.nlm2017.nih07.gov/pubmed/28888961017 | volume=261 | title=The SeqAn C++ template library for efficient sequence analysis: A resource for programmers by| year=2017 | journal=J Biotechnol | pages=157–168 | last1 = Reinert et| al.,first1 2017]= K | last2 = Dadi | first2 = TH | last3 = Ehrhardt | first3 = M | last4 = Hauswedell | first4 = H | last5 = Mehringer | first5 = S | last6 = Rahn | first6 = R | last7 = Kim | first7 = J | last8 = Pockrandt | first8 = C | last9 = Winkler | first9 = J | last10 = Siragusa | first10 = E | last11 = Urgese | first11 = G | last12 = Weese | first12 = D}}</ref> PIA (toolbox for MS based protein inference and identification analysis),<ref name="autogenerated1" /> [[Fiji (software)]] (Image processing package), [[MetFrag]] (in silico fragmenter combines compound database searching and fragmentation prediction for small molecule identification from tandem [[mass spectrometry]] data),<ref>[https:/{{cite journal| pmid=28554829 | doi=10.1016/wwwj.ncbijbiotec.nlm2017.nih05.gov/pubmed/28554829018 | volume=261 | title=Bioinformatics can boost metabolomics research by| year=2017 | journal=J Biotechnol | pages=137–141 | last1 = Meier et| al.,first1 2017]= R | last2 = Ruttkies | first2 = C | last3 = Treutler | first3 = H | last4 = Neumann | first4 = S}}</ref> [[COPASI]] ([[Open-source software|Open source]] software application for creating and solving [[mathematical models]] of [[biological processes]]),<ref>[https:/{{cite journal| pmid=28655634 | doi=10.1016/wwwj.ncbijbiotec.nlm2017.nih06.gov/pubmed/286556341200 | pmc=5623632 | volume=261 | title=COPASI and its applications in biotechnology. | year=2017 | journal=J Biotechnol | pages=215–220 | last1 = Bergmann et| al.,first1 2017]= FT | last2 = Hoops | first2 = S | last3 = Klahn | first3 = B | last4 = Kummer | first4 = U | last5 = Mendes | first5 = P | last6 = Pahle | first6 = J | last7 = Sahle | first7 = S}}</ref> [[SIAMCAT]] (Framework for the statistical inference of associations between [[microbial communities]] and host [[phenotypes]]), [[The e!DAL Plant Phenomics and Genomics Research Data Repository|e!DAL - PGP]] (Open source software framework to publish and share research data), MGX ([[Metagenome]] analysis)<ref>[https://www{{cite journal| pmid=29690922 | doi=10.ncbi.nlm.nih.gov1186/pubmed/29690922s40168-018-0460-1 | pmc=5937802 | volume=6 | title=Flexible metagenome analysis using the MGX framework. | year=2018 | journal=Microbiome | page=76 | last1 = Jaenicke et| al.,first1 2018]= S | last2 = Albaum | first2 = SP | last3 = Blumenkamp | first3 = P | last4 = Linke | first4 = B | last5 = Stoye | first5 = J | last6 = Goesmann | first6 = A}}</ref> and many more.