{"childPageArray":[{"createdDate":"09/2021","pageTitle":"EZH2 Represses the B Cell Transcriptional Program and Regulates Antibody-Secreting Cell Metabolism and Antibody Production","pagePath":"/content/rochesequence/en/support-resources/publications/ezh2-represses-the-b-cell-transcriptional-program-and-regulates-","redirectTarget":"http://www.jimmunol.org/content/200/3/1039.long","authorName":"J. Weiner et al.","publication":"EClinicalMedicine","pageTags":[{"tagName":"2018","tagID":"roche-sequence:publication-reviews/dropdown/2018"},{"tagName":"ChIP-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/ChIP-Seq"},{"tagName":"RNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/RNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"A20 regulates canonical wnt-signalling through an interaction with RIPK4","pagePath":"/content/rochesequence/en/support-resources/publications/a20-regulates-canonical-wnt-signalling-through-an-interaction-wi","redirectTarget":"https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0195893","authorName":"Nakamura BN, et al.","publication":"PLoS ONE","pageTags":[{"tagName":"2018","tagID":"roche-sequence:publication-reviews/dropdown/2018"},{"tagName":"RNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/RNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"Transcriptional analysis of viral mRNAs reveals common transcription patters in cells infected by five different filoviruses","pagePath":"/content/rochesequence/en/support-resources/publications/transcriptional-analysis-of-viral-mrnas-reveals-common-transcrip","redirectTarget":"https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0201827","authorName":"Albariño CG, et al.","publication":"PLoS ONE","pageTags":[{"tagName":"2018","tagID":"roche-sequence:publication-reviews/dropdown/2018"},{"tagName":"RNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/RNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"Targeted capture and sequencing of gene-sized DNA molecules","pagePath":"/content/rochesequence/en/support-resources/publications/targeted-capture-and-sequencing-of-gene-sized-dna-molecules","authorName":"Goilai M. et al","publication":"BioTechniques","pageTags":[{"tagName":"Targeted Capture","tagID":"roche-sequence:publication-reviews/additional-tags/targeted-capture"},{"tagName":"2016","tagID":"roche-sequence:publication-reviews/dropdown/2016"}]},{"createdDate":"09/2021","pageTitle":"Optimizing illumina next-generation sequencing library preparation for extremely at-biased genomes","pagePath":"/content/rochesequence/en/support-resources/publications/optimizing-illumina-next-generation-sequencing-library-preparati","redirectTarget":"https://bmcgenomics.biomedcentral.com/articles/10.1186/1471-2164-13-1","authorName":"Oyola, SO., et al. ","publication":"BMC Genetics","pageTags":[{"tagName":"2012","tagID":"roche-sequence:publication-reviews/dropdown/2012"}]},{"createdDate":"09/2021","pageTitle":"Optimized enzymes for amplifying sequencing libraries","pagePath":"/content/rochesequence/en/support-resources/publications/optimized-enzymes-for-amplifying-sequencing-libraries","redirectTarget":"https://www.nature.com/articles/nmeth.1814","authorName":"Quail.MA et al","publication":"Nature Methods","pageTags":[{"tagName":"2012","tagID":"roche-sequence:publication-reviews/dropdown/2012"}]},{"createdDate":"09/2021","pageTitle":"A tale of three next generation sequencing platforms: comparison of Ion Torrent, Pacific Biosciences and Illumina MiSeq sequencers","pagePath":"/content/rochesequence/en/support-resources/publications/a-tale-of-three-next-generation-sequencing-platforms--comparison","redirectTarget":"https://bmcgenomics.biomedcentral.com/articles/10.1186/1471-2164-13-341","authorName":"Quail.MA et al","publication":"BMC Genetics","pageTags":[{"tagName":"2012","tagID":"roche-sequence:publication-reviews/dropdown/2012"}]},{"createdDate":"09/2021","pageTitle":"Cis-compound mutations are prevalent in triple negative breast cancer and can drive tumor progression","pagePath":"/content/rochesequence/en/support-resources/publications/cis-compound-mutations-are-prevalent-in-triple-negative-breast-c","redirectTarget":"https://www.biorxiv.org/content/early/2016/11/05/085316","authorName":"Hiranuma, N. et al.","publication":"bioRxiv","pageTags":[{"tagName":"2016","tagID":"roche-sequence:publication-reviews/dropdown/2016"}]},{"createdDate":"09/2021","pageTitle":"Genomes of the Mouse Collaborative Cross","pagePath":"/content/rochesequence/en/support-resources/publications/genomes-of-the-mouse-collaborative-cross","redirectTarget":"http://www.genetics.org/content/206/2/537","authorName":"Srivastava, A. et al.","publication":"Genetics","pageTags":[{"tagName":"2017","tagID":"roche-sequence:publication-reviews/dropdown/2017"}]},{"createdDate":"09/2021","pageTitle":"Library preparation methodology can influence genomic and functional predictions in human microbiome research","pagePath":"/content/rochesequence/en/support-resources/publications/library-preparation-methodology-can-influence-genomic-and-functi","redirectTarget":"https://www.pnas.org/content/112/45/14024","authorName":"Jones, M.B. et al.","publication":"Proc Natl Acad Sci USA","pageTags":[{"tagName":"2015","tagID":"roche-sequence:publication-reviews/dropdown/2015"}]},{"createdDate":"09/2021","pageTitle":"Marine Bivalve Mollusks As Possible Indicators of Multidrug-Resistant Escherichia coli and Other Species of the Enterobacteriaceae Family","pagePath":"/content/rochesequence/en/support-resources/publications/marine-bivalve-mollusks-as-possible-indicators-of-multidrug-resi","redirectTarget":"https://www.frontiersin.org/articles/10.3389/fmicb.2017.00024/full","authorName":"Grevskott, D.H. et al.","publication":"Front Microbiol","pageTags":[{"tagName":"2017","tagID":"roche-sequence:publication-reviews/dropdown/2017"}]},{"createdDate":"09/2021","pageTitle":"Whole genome sequencing reveals within host genetic changes in paired meningococcal carriage isolates from Ethiopia","pagePath":"/content/rochesequence/en/support-resources/publications/whole-genome-sequencing-reveals-within-host-genetic-changes-in-p","redirectTarget":"https://bmcgenomics.biomedcentral.com/articles/10.1186/s12864-017-3806-3","authorName":"Bårnes, G.K. et al.","publication":"BMC Genomics","pageTags":[{"tagName":"2017","tagID":"roche-sequence:publication-reviews/dropdown/2017"}]},{"createdDate":"09/2021","pageTitle":"Cross-Site Comparison of Ribosomal Depletion Kits for Illumina RNAseq Library Construction","pagePath":"/content/rochesequence/en/support-resources/publications/cross-site-comparison-of-ribosomal-depletion-kits-for-illumina-r","redirectTarget":"https://link.springer.com/article/10.1186/s12864-018-4585-1","authorName":"Herbert, Z.T et al.","publication":"BMC Genomics","pageTags":[{"tagName":"2018","tagID":"roche-sequence:publication-reviews/dropdown/2018"},{"tagName":"RNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/RNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"Accurate RNA sequencing from formalin-fixed cancer tissue to represent high-quality transcriptome from frozen tissue","pagePath":"/content/rochesequence/en/support-resources/publications/accurate-rna-sequencing-from-formalin-fixed-cancer-tissue-to-rep","redirectTarget":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5976456/","authorName":"Li, J. et al.","publication":"JCO Precis Oncol.","pageTags":[{"tagName":"2018","tagID":"roche-sequence:publication-reviews/dropdown/2018"},{"tagName":"RNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/RNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"LMTK3 confers chemo-resistance in breast cancer","pagePath":"/content/rochesequence/en/support-resources/publications/lmtk3-confers-chemo-resistance-in-breast-cancer1","redirectTarget":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5992129/","authorName":"Stebbing, J. et al.","publication":"Oncogene","pageTags":[{"tagName":"2018","tagID":"roche-sequence:publication-reviews/dropdown/2018"},{"tagName":"RNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/RNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"Targeted capture and sequencing of gene-sized DNA molecules","pagePath":"/content/rochesequence/en/support-resources/publications/targeted-capture-and-sequencing-of-gene-sized-DNA-molecules","redirectTarget":"https://www.future-science.com/doi/10.2144/000114484?url_ver=Z39.88-2003&rfr_id=ori%3Arid%3Acrossref.org&rfr_dat=cr_pub%3Dwww.ncbi.nlm.nih.gov&","authorName":"Goilai M. et al","publication":"BioTechniques","pageTags":[{"tagName":"Targeted Capture","tagID":"roche-sequence:publication-reviews/additional-tags/targeted-capture"},{"tagName":"2016","tagID":"roche-sequence:publication-reviews/dropdown/2016"}]},{"createdDate":"09/2021","pageTitle":"EZH2 Represses the B Cell Transcriptional Program and Regulates Antibody-Secreting Cell Metabolism and Antibody Production.","pagePath":"/content/rochesequence/en/support-resources/publications/EZH2-represses-the-B-cell-transcriptional-program","redirectTarget":"http://www.jimmunol.org/content/200/3/1039.long","authorName":"Guo M. et al.","publication":"J. Immunol.","pageTags":[{"tagName":"2018","tagID":"roche-sequence:publication-reviews/dropdown/2018"},{"tagName":"ChIP-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/ChIP-Seq"},{"tagName":"RNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/RNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"In-depth resistome analysis by targeted metagenomics","pagePath":"/content/rochesequence/en/support-resources/publications/in-depth-resistome-analysis-by-targeted-metagenomics","redirectTarget":"https://microbiomejournal.biomedcentral.com/articles/10.1186/s40168-017-0387-y","authorName":"Lanza VF, et al.","publication":"Microbiome","pageTags":[{"tagName":"2017","tagID":"roche-sequence:publication-reviews/dropdown/2017"},{"tagName":"DNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/DNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"Enhanced Virome Sequencing Using Targeted Sequence Capture","pagePath":"/content/rochesequence/en/support-resources/publications/enhanced-virome-sequencing-using-targeted-sequence-capture","redirectTarget":"https://genome.cshlp.org/content/25/12/1910.full.pdf+html","authorName":"Wylie TN, et al.","publication":"Genome Res","pageTags":[{"tagName":"2015","tagID":"roche-sequence:publication-reviews/dropdown/2015"},{"tagName":"DNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/DNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"Detecting somatic genetic alterations in tumor specimens by exon capture and massively parallel sequencing","pagePath":"/content/rochesequence/en/support-resources/publications/detecting-somatic-genetic-alterations-in-tumor-specimens-by-exon-capture-and-massively-parallel-sequencing","redirectTarget":"https://www.ncbi.nlm.nih.gov/pubmed/24192750","authorName":"Won HH, et al.","publication":"J Vis Exp","pageTags":[{"tagName":"2013","tagID":"roche-sequence:publication-reviews/dropdown/2013"},{"tagName":"DNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/DNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"Quantifying single nucleotide variant detection sensitivity in exome sequencing","pagePath":"/content/rochesequence/en/support-resources/publications/quantifying-single-nucleotide-variant-detection-sensitivity-in-exome-sequencing","redirectTarget":"https://bmcbioinformatics.biomedcentral.com/articles/10.1186/1471-2105-14-195","authorName":"Meynert AM, et al.","publication":"BMC Bioinformatics","pageTags":[{"tagName":"2013","tagID":"roche-sequence:publication-reviews/dropdown/2013"},{"tagName":"DNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/DNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"Epidermal Tissue Adapts to Restrain Progenitors Carrying Clonal p53 Mutations","pagePath":"/content/rochesequence/en/support-resources/publications/epidermal-tissue-adapts-to-restrain-progenitors-carrying-clonal-p53-mutations","redirectTarget":"https://www.sciencedirect.com/science/article/pii/S1934590918304028?via%3Dihub","authorName":"Murai K, et al.","publication":"Cell Stem Cell","pageTags":[{"tagName":"2018","tagID":"roche-sequence:publication-reviews/dropdown/2018"},{"tagName":"RNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/RNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"Role of BMI1 in epithelial ovarian cancer: investigated via the CRISPR/Cas9 system and RNA sequencing","pagePath":"/content/rochesequence/en/support-resources/publications/role-of-BMI1-in-epithelial-ovarian-cancer-investigated-via-the-CRISPRCas9-system-and-RNA-sequencing","redirectTarget":"https://www.ncbi.nlm.nih.gov/pubmed/29685168","authorName":"Zhao Q, et al.","publication":"J Ovarian Res","pageTags":[{"tagName":"2018","tagID":"roche-sequence:publication-reviews/dropdown/2018"},{"tagName":"RNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/RNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"Transcriptional and Translational Differences of Microglia from Male and Female Brains","pagePath":"/content/rochesequence/en/support-resources/publications/transcriptional-and-translational-differences-of-microglia-from-male-and-female-brains","redirectTarget":"https://www.cell.com/cell-reports/fulltext/S2211-1247(18)31242-7","authorName":"Guneykaya D, et al.","publication":"Cell Rep","pageTags":[{"tagName":"2018","tagID":"roche-sequence:publication-reviews/dropdown/2018"},{"tagName":"RNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/RNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"Regulation of gene expression and RNA editing in Drosophila adapting to divergent microclimates","pagePath":"/content/rochesequence/en/support-resources/publications/regulation-of-gene-expression-and-rna-editing-in-drosophila-adapting-to-divergent-microclimates","redirectTarget":"https://www.nature.com/articles/s41467-017-01658-2","authorName":"Yablonovitch AL, et al.","publication":"Nat Commun","pageTags":[{"tagName":"2017","tagID":"roche-sequence:publication-reviews/dropdown/2017"},{"tagName":"RNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/RNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"Human viral pathogens are pervasive in wastewater treatment center aerosols","pagePath":"/content/rochesequence/en/support-resources/publications/human-viral-pathogens-are-pervasive-in-wastewater-treatment-center-aerosols","redirectTarget":"https://www.ncbi.nlm.nih.gov/pubmed/29778173","authorName":"Brisebois E., et al. ","publication":"J Environ Sci (China)","pageTags":[{"tagName":"2017","tagID":"roche-sequence:publication-reviews/dropdown/2017"},{"tagName":"RNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/RNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"Transcriptional analysis of viral mRNAs reveals common transcription patterns in cells infected by five different filoviruses","pagePath":"/content/rochesequence/en/support-resources/publications/transcriptional-analysis-of-viral-mRNAs-reveals-common-transcription-patterns-in-cells-infected-by-five-different-filoviruses","redirectTarget":"https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0201827","authorName":"Albarino CG, et al","publication":"PLoS One","pageTags":[{"tagName":"2018","tagID":"roche-sequence:publication-reviews/dropdown/2018"},{"tagName":"RNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/RNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"The transcriptional landscape of Rhizoctonia solani AG1-IA during infection of soybean as defined by RNA-seq","pagePath":"/content/rochesequence/en/support-resources/publications/the-transcriptional-landscape-of-rhizoctonia-solani-AG1-IA-during-infection-of-soybean-as-defined-by-RNA-seq","redirectTarget":"https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0184095","authorName":"Copley TR., et al.","publication":"PLoS One","pageTags":[{"tagName":"2017","tagID":"roche-sequence:publication-reviews/dropdown/2017"},{"tagName":"RNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/RNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"Unique resistance traits against downy mildew from the center of origin of grapevine (Vitis vinifera)","pagePath":"/content/rochesequence/en/support-resources/publications/unique-resistance-traits-against-downy-mildew-from-the-center-of-origin-of-grapevine-Vitis-vinifera","redirectTarget":"https://www.nature.com/articles/s41598-018-30413-w","authorName":"Toffolatti SL., et al.","publication":"Sci Rep","pageTags":[{"tagName":"2018","tagID":"roche-sequence:publication-reviews/dropdown/2018"},{"tagName":"RNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/RNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"Transcriptional and temporal response of Populus stems to gravi-stimulation","pagePath":"/content/rochesequence/en/support-resources/publications/transcriptional-and-temporal-response-of-populus-stems-to-gravi-stimulation","redirectTarget":"https://www.ncbi.nlm.nih.gov/pubmed/29480544","authorName":"Zinkgraf M., et al","publication":"J Integr Plant Biol","pageTags":[{"tagName":"2018","tagID":"roche-sequence:publication-reviews/dropdown/2018"},{"tagName":"RNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/RNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"Systematic discovery of uncharacterized transcription factors in Escherichia coli K-12 MG1655","pagePath":"/content/rochesequence/en/support-resources/publications/systematic-discovery-of-uncharacterized-transcription-factors-in-escherichia-coli-k-12-mG1655","redirectTarget":"https://academic.oup.com/nar/article/46/20/10682/5078243","authorName":"Gao Y., et al.","publication":"Nucleic Acids Res","pageTags":[{"tagName":"2018","tagID":"roche-sequence:publication-reviews/dropdown/2018"},{"tagName":"RNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/RNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"Physiological characterization of the emergence from diapause: A transcriptomics approach","pagePath":"/content/rochesequence/en/support-resources/publications/physiological-characterization-of-the-emergence-from-diapause-A-transcriptomics-approach","redirectTarget":"https://www.nature.com/articles/s41598-018-30873-0","authorName":"Roncalli V., et al.","publication":"Sci Rep","pageTags":[{"tagName":"2018","tagID":"roche-sequence:publication-reviews/dropdown/2018"},{"tagName":"RNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/RNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"A protein\u2013protein interaction underlies the molecular basis for substrate recognition by an adenosine-to-inosine RNA-editing enzyme","pagePath":"/content/rochesequence/en/support-resources/publications/a-protein-protein-interaction-underlies-the-molecular-basis-for-substrate-recognition-by-an-adenosine-to-inosine-RNA-editing-enzyme","redirectTarget":" https://academic.oup.com/nar/article/46/18/9647/5091960","authorName":"Rajendren S., et al. ","publication":"Nucleic Acids Res","pageTags":[{"tagName":"2018","tagID":"roche-sequence:publication-reviews/dropdown/2018"},{"tagName":"RNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/RNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"Oncostatin M inhibits differentiation of rat stem Leydig cells in vivo and in vitro","pagePath":"/content/rochesequence/en/support-resources/publications/oncostatin-m-inhibits-differentiation-of-rat-stem-Leydig-cells-in-vivo-and-in-vitro","redirectTarget":"https://www.ncbi.nlm.nih.gov/pubmed/30320465","authorName":"Wang Y., et al.","publication":"J Cell Mol Med","pageTags":[{"tagName":"RNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/RNA-Seq"},{"tagName":"2019","tagID":"roche-sequence:publication-reviews/dropdown/2019"}]},{"createdDate":"09/2021","pageTitle":"A near complete, chromosome-scale assembly of the black raspberry (Rubus occidentalis) genome","pagePath":"/content/rochesequence/en/support-resources/publications/a-near-complete-chromosome-scale-assembly-of-the-black-raspberr-Rubus-accidentalis-genome","redirectTarget":"https://academic.oup.com/gigascience/article/7/8/giy094/5069394","authorName":"VanBuren R., et al.","publication":"Gigascience","pageTags":[{"tagName":"2018","tagID":"roche-sequence:publication-reviews/dropdown/2018"},{"tagName":"RNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/RNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"Genome-Wide Identification of circRNAs in Pathogenic Basidiomycetous Yeast Cryptococcus neoformans Suggests Conserved circRNA Host Genes over Kingdoms","pagePath":"/content/rochesequence/en/support-resources/publications/genome-wide-identification-of-circRNAs-in-pathogenic-basidiomycetous-yeast-cryptococcus-neoformans-suggests-conserved-circRNA-host-genes-over-kingdoms","pageTags":[{"tagName":"2018","tagID":"roche-sequence:publication-reviews/dropdown/2018"},{"tagName":"RNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/RNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"Critical functions for STAT5 tetramers in the maturation and survival of natural killer cells","pagePath":"/content/rochesequence/en/support-resources/publications/critical-functions-for-STAT5-tetramers-in-the-maturation-and-survival-of-natural-killer-cells","redirectTarget":"https://www.nature.com/articles/s41467-017-01477-5","authorName":"Lin JX., et al.","publication":"Nat Commun","pageTags":[{"tagName":"2017","tagID":"roche-sequence:publication-reviews/dropdown/2017"},{"tagName":"RNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/RNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"DNA methylation-based age prediction using massively parallel sequencing data and multiple machine learning models","pagePath":"/content/rochesequence/en/support-resources/publications/DNA-methylation-based-age-prediction-using-massively-parallel-sequencing-data-and-multiple-machine-learning-models","redirectTarget":"https://www.ncbi.nlm.nih.gov/pubmed/30243148","authorName":"Aliferi A., et al.","publication":"Forensic Sci Int Genet","pageTags":[{"tagName":"2018","tagID":"roche-sequence:publication-reviews/dropdown/2018"},{"tagName":"DNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/DNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"B cell activation and plasma cell differentiation are inhibited by de novo DNA methylation","pagePath":"/content/rochesequence/en/support-resources/publications/b-cell-activation-and-plasma-cell-differentiation-are-inhibited-by-denovo-DNA-methylation","redirectTarget":"https://www.nature.com/articles/s41467-018-04234-4","authorName":"Barwick BG., et al.","publication":"Nat Commun ","pageTags":[{"tagName":"2018","tagID":"roche-sequence:publication-reviews/dropdown/2018"},{"tagName":"DNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/DNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"Evolution of sequence-specific anti-silencing systems in Arabidopsis","pagePath":"/content/rochesequence/en/support-resources/publications/evolution-of-sequence-specific-anti-silencing-systems-in-Arabidopsis","redirectTarget":"https://www.nature.com/articles/s41467-017-02150-7","authorName":"Hosaka A., et al.","publication":"Nat Commun","pageTags":[{"tagName":"2017","tagID":"roche-sequence:publication-reviews/dropdown/2017"},{"tagName":"ChIP-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/ChIP-Seq"},{"tagName":"DNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/DNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"Sex-specific histone modifications in mouse fetal and neonatal germ cells","pagePath":"/content/rochesequence/en/support-resources/publications/sex-specific-histone-modifications-in-mouse-fetal-and-neonatal-germ-cells","redirectTarget":"https://www.futuremedicine.com/doi/full/10.2217/epi-2018-0193","authorName":"Kawabata Y., et al","publication":"Epigenomics","pageTags":[{"tagName":"ChIP-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/ChIP-Seq"},{"tagName":"2019","tagID":"roche-sequence:publication-reviews/dropdown/2019"},{"tagName":"DNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/DNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"Regeneration of Escherichia coli from Minicells through Lateral Gene Transfer","pagePath":"/content/rochesequence/en/support-resources/publications/Regeneration-of-Escherichia-coli-from-Minicells-through-Lateral-Gene-Transfer","redirectTarget":"https://jb.asm.org/content/200/9/e00630-17","authorName":"Kobayashi H","publication":"J Bacteriol","pageTags":[{"tagName":"2018","tagID":"roche-sequence:publication-reviews/dropdown/2018"},{"tagName":"DNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/DNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"Methicillin-resistant Staphylococcus aureus has greater risk of transmission in the operating room than methicillin-sensitive S aureus","pagePath":"/content/rochesequence/en/support-resources/publications/Methicillin-resistant-Staphylococcus-aureus-has-greater-risk-of-transmission-in-the-operating-room-than-methicillin-sensitive-S-aureus","redirectTarget":"https://www.ajicjournal.org/article/S0196-6553(17)31224-5/abstract","authorName":"Loftus RW., et al.","publication":"Am J Infect Control","pageTags":[{"tagName":"2018","tagID":"roche-sequence:publication-reviews/dropdown/2018"},{"tagName":"DNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/DNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"Host subspecific viral strains in European house mice: Murine cytomegalovirus in the Eastern (Mus musculus musculus) and Western house mouse (Mus musculus domesticus)","pagePath":"/content/rochesequence/en/support-resources/publications/Host-subspecific-viral-strains-in-European-house-mice-Murine-cytomegalovirus-in-the-Eastern-Mus-musculus-musculus-and-Western-house-mouse-Mus-musculus-domesticus","redirectTarget":"https://www.ncbi.nlm.nih.gov/pubmed/?term=Host+subspecific+viral+strains+in+European+house+mice%3A+Murine+cytomegalovirus+in+the+Eastern+(Mus+musculus+musculus)+and+Western+house+mouse+(Mus+musculus+domesticus)","authorName":"Cizkova D., et al. ","publication":"Virology","pageTags":[{"tagName":"2018","tagID":"roche-sequence:publication-reviews/dropdown/2018"},{"tagName":"DNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/DNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"Development and characterization of 43 microsatellite markers for the critically endangered primrose Primula reinii using MiSeq sequencing","pagePath":"/content/rochesequence/en/support-resources/publications/development-and-characterization-of-43-microsatellite-markers-for-the-critically-endangered-primrose-Primula-reinii-using-MiSeq-sequencing","redirectTarget":"https://www.ncbi.nlm.nih.gov/pubmed/?term=Development+and+characterization+of+43+microsatellite+markers+for+the+critically+endangered+primrose+Primula+reinii+using+MiSeq+sequencing","authorName":"Yamamoto M., et al.","publication":"Plant Divers","pageTags":[{"tagName":"2017","tagID":"roche-sequence:publication-reviews/dropdown/2017"},{"tagName":"DNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/DNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"The Effects of an Environmentally Relevant Level of Arsenic on the Gut Microbiome and Its Functional Metagenome","pagePath":"/content/rochesequence/en/support-resources/publications/The-Effects-of-an-Environmentally-Relevant-Level-of-Arsenic-on-the-Gut-Microbiome-and-Its-Functional-Metagenome","redirectTarget":"https://academic.oup.com/toxsci/article/160/2/193/4096634","authorName":"Chi L., et al","publication":"Toxicol Sci","pageTags":[{"tagName":"2017","tagID":"roche-sequence:publication-reviews/dropdown/2017"},{"tagName":"DNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/DNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"Different methods of incorporating ciprofloxacin in soil affect microbiome and degradation of ciprofloxacin residue","pagePath":"/content/rochesequence/en/support-resources/publications/Different-methods-of-incorporating-ciprofloxacin-in-soil-affect-microbiome-and-degradation-of-ciprofloxacin-residue","redirectTarget":"https://www.ncbi.nlm.nih.gov/pubmed/29056384","authorName":"Liu L., et al.","publication":"Sci Total Environ","pageTags":[{"tagName":"2018","tagID":"roche-sequence:publication-reviews/dropdown/2018"},{"tagName":"DNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/DNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"CRISPR\u2013Cas9-targeted fragmentation and selective sequencing enable massively parallel microsatellite analysis","pagePath":"/content/rochesequence/en/support-resources/publications/CRISPR-Cas9-targeted-fragmentation-and-selective-sequencing-enable-massively-parallel-microsatellite-analysis","redirectTarget":"https://www.nature.com/articles/ncomms14291","authorName":"Shin G., et al.","publication":"Nat Commun","pageTags":[{"tagName":"2017","tagID":"roche-sequence:publication-reviews/dropdown/2017"},{"tagName":"DNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/DNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"CRISPR/Cas9-mediated gene knockout in the mouse brain using in utero electroporation","pagePath":"/content/rochesequence/en/support-resources/publications/CRISPR-Cas9-mediated-gene-knockout-in-the-mouse-brain-using-in-utero-electroporation","redirectTarget":"https://currentprotocols.onlinelibrary.wiley.com/doi/abs/10.1002/cpns.26","authorName":"Shinmyo Y., et al ","publication":"Curr Protocol Neurosci","pageTags":[{"tagName":"2016","tagID":"roche-sequence:publication-reviews/dropdown/2016"},{"tagName":"DNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/DNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"Circadian signaling in Homarus americanus: Region-specific de novo assembled transcriptomes show that both the brain and eyestalk ganglia possess the molecular components of a putative clock system","pagePath":"/content/rochesequence/en/support-resources/publications/circadian-signaling-in-homarus-americanus-region-specific-de-novo-assembled-transcriptomes-show-that-both-the-brain-and-eyestalk-ganglia-possess-the-molecular-components-of-a-putative-clock-system","redirectTarget":"https://www.ncbi.nlm.nih.gov/pubmed/29655930","authorName":"Christie AE, et al.","publication":"Mar Genomics","pageTags":[{"tagName":"2018","tagID":"roche-sequence:publication-reviews/dropdown/2018"},{"tagName":"RNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/RNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"Analyses of gene expression profiles in the rat dorsal horn of the spinal cord using RNA sequencing in chronic constriction injury rats","pagePath":"/content/rochesequence/en/support-resources/publications/analyses-of-gene-expression-profile-in-the-rat-dorsal-horn-of-the-spinal-cord","redirectTarget":"https://jneuroinflammation.biomedcentral.com/articles/10.1186/s12974-018-1316-0","authorName":"Du H., et al","publication":"J Neuroimmflamation","pageTags":[{"tagName":"2018","tagID":"roche-sequence:publication-reviews/dropdown/2018"},{"tagName":"RNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/RNA-Seq"}]},{"createdDate":"09/2021","pageTitle":"Single gametophyte sequencing reveals that crossover events differ between sexes in maize","pagePath":"/content/rochesequence/en/support-resources/publications/single-gametophyte-sequencing-reveals-that-crossover-events-differ-between-sexes-in-maize","authorName":"Cheng L., et al. ","publication":"Nat Commun","pageTags":[{"tagName":"2019","tagID":"roche-sequence:publication-reviews/dropdown/2019"},{"tagName":"DNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/DNA-Seq"}]}],"filtersJSON":[{"name":"dropdown","title":"Year","items":[{"tagName":"2012","tagID":"roche-sequence:publication-reviews/dropdown/2012"},{"tagName":"2013","tagID":"roche-sequence:publication-reviews/dropdown/2013"},{"tagName":"2015","tagID":"roche-sequence:publication-reviews/dropdown/2015"},{"tagName":"2016","tagID":"roche-sequence:publication-reviews/dropdown/2016"},{"tagName":"2017","tagID":"roche-sequence:publication-reviews/dropdown/2017"},{"tagName":"2018","tagID":"roche-sequence:publication-reviews/dropdown/2018"},{"tagName":"2019","tagID":"roche-sequence:publication-reviews/dropdown/2019"}]},{"name":"additional-tags","title":"Applications","items":[{"tagName":"ChIP-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/ChIP-Seq"},{"tagName":"RNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/RNA-Seq"},{"tagName":"Targeted Capture","tagID":"roche-sequence:publication-reviews/additional-tags/targeted-capture"},{"tagName":"DNA-Seq","tagID":"roche-sequence:publication-reviews/additional-tags/DNA-Seq"}]}],"showPageTags":["roche-sequence:publication-reviews/additional-tags/RNA-Seq","roche-sequence:publication-reviews/additional-tags/DNA-Seq"]}
Thank you
Thank you, your information has been submitted successfully.