about
Endogenous retroviral promoter exaptation in human cancerA team of heterochromatin factors collaborates with small RNA pathways to combat repetitive elements and germline stress.Nucleosome repositioning during differentiation of a human myeloid leukemia cell line.Stella modulates transcriptional and endogenous retrovirus programs during maternal-to-zygotic transition.A survey of the complex transcriptome from the highly polyploid sugarcane genome using full-length isoform sequencing and de novo assembly from short read sequencing.Genome annotation for clinical genomic diagnostics: strengths and weaknessesSequencing and de novo assembly of 150 genomes from Denmark as a population referenceGenome-wide mapping of autonomous promoter activity in human cellsStable Caenorhabditis elegans chromatin domains separate broadly expressed and developmentally regulated genes.The future of transposable element annotation and their classification in the light of functional genomics - what we can learn from the fables of Jean de la Fontaine?Associating transcription factors and conserved RNA structures with gene regulation in the human brain.CTRL+INSERT: retrotransposons and their contribution to regulation and innovation of the transcriptomeEvolution of bird genomes-a transposon's-eye view.Comparative genomics of the tardigrades Hypsibius dujardini and Ramazzottius varieornatus.Long terminal repeats power evolution of genes and gene expression programs in mammalian oocytes and zygotes.De novo genome assembly and annotation of Australia's largest freshwater fish, the Murray cod (Maccullochella peelii), from Illumina and Nanopore sequencing readTransposable elements are the primary source of novelty in primate gene regulation.The intron-enriched HERV-K(HML-10) family suppresses apoptosis, an indicator of malignant transformation.Intricate and Cell Type-Specific Populations of Endogenous Circular DNA (eccDNA) in Caenorhabditis elegans and Homo sapiens.Highly sensitive and specific Alu-based quantification of human cells among rodent cells.Identification of a novel HERV-K(HML10): comprehensive characterization and comparative analysis in non-human primates provide insights about HML10 proviruses structure and diffusion.Mapping and phasing of structural variation in patient genomes using nanopore sequencing.Cut-and-paste transposons in fungi with diverse lifestyles.Living Organisms Author Their Read-Write Genomes in Evolution.KRAB zinc finger proteins.De novo assembling and primary analysis of genome and transcriptome of gray whale Eschrichtius robustus.Using bioinformatic and phylogenetic approaches to classify transposable elements and understand their complex evolutionary histories.Loss of p53-inducible long non-coding RNA LINC01021 increases chemosensitivity.Physiological and Pathological Transcriptional Activation of Endogenous Retroelements Assessed by RNA-Sequencing of B Lymphocytes.A Two-State Model of Tree Evolution and its Applications to Alu Retrotransposition.Silencing of retrotransposons by SETDB1 inhibits the interferon response in acute myeloid leukemia.Repressive Chromatin in Caenorhabditis elegans: Establishment, Composition, and Function.Alu element insertion in PKLR gene as a novel cause of pyruvate kinase deficiency in Middle Eastern patients.A Reference Viral Database (RVDB) To Enhance Bioinformatics Analysis of High-Throughput Sequencing for Novel Virus Detection.A family of long intergenic non-coding RNA genes in human chromosomal region 22q11.2 carry a DNA translocation breakpoint/AT-rich sequence.Longevity and transposon defense, the case of termite reproductives.Draft genome assembly of the invasive cane toad, Rhinella marinaDe novo human genome assemblies reveal spectrum of alternative haplotypes in diverse populationsExtreme allelic heterogeneity at a Caenorhabditis elegans beta-tubulin locus explains natural resistance to benzimidazolesStatistical modelling of CG interdistance across multiple organisms
P2860
Q28067477-9AA86BBA-C24D-42F5-8B48-C6480A08BB47Q33574854-A6EFE117-F401-4FF7-8AD8-239B44EE33A0Q33597493-29CECEB9-F9C2-46AD-B368-AE33F8BE7E17Q33603026-C159BD4C-1819-485B-93D2-694F7831B001Q33716606-693424C7-2B58-4B1F-89CF-CEA708007638Q33737782-E202885F-7750-4858-9BD0-0EFA8B3F027EQ34157223-E4266DE4-FA9D-4C94-A084-86D8F6A2F494Q36233375-DA55C68E-3201-49B3-8F3F-F83A70E64AD8Q37417986-613789C7-2830-4B61-A995-F8983BD41DA4Q38438114-A217ED3C-FE67-4DC5-8657-684E9A6143D9Q38673142-7602F48F-8A19-4632-B4DB-3552E5B61102Q38893405-8D517852-E078-49EE-A23B-F53B3AD5961BQ39044606-D2743E7F-8446-431A-A707-EE195F74969DQ41152938-1431E605-2641-43E3-94C3-A4448BEB0685Q41199617-E4F984A7-604A-436C-B2E5-4AD57657E7D7Q41692270-DDB35EC9-5C37-4F41-89D6-3D6D316735D9Q42275762-A47516CA-F8EB-4F1E-AD3B-4E72E5E5CE9FQ42356939-0DF7DD71-0EEE-4D49-B336-4EAC7FBC2D72Q42373224-9C0408DD-35EF-4C56-AD79-C5619ACE31EDQ42378966-88D62677-A85B-468D-A6F9-651CFFA41FD1Q43182943-17AE9479-D368-40B3-BEF9-2F293E2A22A3Q44794525-40188CC6-4578-4019-BECA-A2529BF1A065Q46243760-2CC3B946-0B38-40EB-A2F2-F696D252F57CQ46246927-AF59F132-0AC5-42B8-9D54-65DBC0C69581Q46327518-683BBF3E-FC6B-4F57-A95C-BD3C32113DBAQ47100674-1B827C65-307D-48AA-B48C-3899E1DCD6A6Q47105297-883491E0-E95C-4A09-84D1-6A861C72FAEDQ47159002-1CF94EC8-41C0-45D6-B6CB-256916405BE1Q47194262-2497A01E-725F-4C23-8F97-CC8A8E499B0CQ47323749-D7197B1E-16D4-4B07-BA2B-D9E99C625C62Q47831063-D4F3F14F-5062-4C1E-BEF8-D31E9C9BFC36Q48148054-8EBBBB62-F0FB-4892-8A8C-D5D78029FB42Q48329061-7142E96D-2765-415D-8096-AFD5EDEC943FQ51736803-B953EEFA-52AC-44CE-9B2F-8CEB08AC3E8DQ52580542-29B1C3E5-2C29-4EC2-A683-4DDC5F6CFA16Q55345627-75224307-E6D6-4853-B8A8-E6583C546EB6Q56654642-7516AC7C-76C9-4957-B527-B69A9BF5287CQ57275004-D4842BF2-958C-4EE9-AD06-02A16E8D48B6Q58106792-AFBC9832-293F-4000-9E1E-1A0C8C7AF1F2Q58736654-843CBF26-61D0-45F8-B4BF-954800F20994
P2860
description
2015 nî lūn-bûn
@nan
2015 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2015 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2015年の論文
@ja
2015年論文
@yue
2015年論文
@zh-hant
2015年論文
@zh-hk
2015年論文
@zh-mo
2015年論文
@zh-tw
2015年论文
@wuu
name
The Dfam database of repetitive DNA families.
@ast
The Dfam database of repetitive DNA families.
@en
type
label
The Dfam database of repetitive DNA families.
@ast
The Dfam database of repetitive DNA families.
@en
prefLabel
The Dfam database of repetitive DNA families.
@ast
The Dfam database of repetitive DNA families.
@en
P2860
P50
P356
P1476
The Dfam database of repetitive DNA families.
@en
P2860
P356
10.1093/NAR/GKV1272
P4011
1c2708fd258129c9e92c27e739a6f35861dba43d
P407
P50
P577
2015-11-26T00:00:00Z