Bacteria-human somatic cell lateral gene transfer is enriched in cancer samples
about
Whole-genome sequencing targets drug-resistant bacterial infectionsA review of bacteria-animal lateral gene transfer may inform our understanding of diseases like cancerCirculating nucleic acids: a new class of physiological mobile genetic elementsIntronless WNT10B-short variant underlies new recurrent allele-specific rearrangement in acute myeloid leukaemiaDistinguishing potential bacteria-tumor associations from contamination in a secondary data analysis of public cancer genome sequence data.Microbial Signatures Associated with Oropharyngeal and Oral Squamous Cell Carcinomas.Mobile elements and viral integrations prompt considerations for bacterial DNA integration as a novel carcinogenMicrobial endocrinology: Host-microbiota neuroendocrine interactions influencing brain and behavior.Inflammation and vitamin D: the infection connectionRapid transcriptome sequencing of an invasive pest, the brown marmorated stink bug Halyomorpha halys.Cancer and the microbiota.Extensively duplicated and transcriptionally active recent lateral gene transfer from a bacterial Wolbachia endosymbiont to its host filarial nematode Brugia malayi.Stomach microbiota composition varies between patients with non-atrophic gastritis and patients with intestinal type of gastric cancerMicrobiota-mitochondria inter-talk: consequence for microbiota-host interaction.Gut mucosal microbiome across stages of colorectal carcinogenesis.Identification of low abundance microbiome in clinical samples using whole genome sequencing.Modeling the integration of bacterial rRNA fragments into the human cancer genomeMetagenomic analysis of bloodstream infections in patients with acute leukemia and therapy-induced neutropenia.Tissue-Associated Bacterial Alterations in Rectal Carcinoma Patients Revealed by 16S rRNA Community Profiling.Gastrointestinal malignancy and the microbiome.The bifacial role of helminths in cancer: involvement of immune and non-immune mechanisms.Horizontal gene transfer: building the web of life.Microbiota as a mediator of cancer progression and therapy.Prediction of bacterial microRNAs and possible targets in human cell transcriptome.Helicobacter pylori-Induced Changes in Gastric Acid Secretion and Upper Gastrointestinal Disease.Bacterial membrane vesicles transport their DNA cargo into host cells.Editorial on "Cancer and the microbiota" published in Science.Integration of a bacterial gene sequence into a chronic eosinophilic leukemia patient's genome as part of a fusion gene linker.The gastric microbiome, its interaction with Helicobacter pylori, and its potential role in the progression to stomach cancer.Aligner optimization increases accuracy and decreases compute times in multi-species sequence data.Decontaminating eukaryotic genome assemblies with machine learning.Internalization of a polysialic acid-binding Escherichia coli bacteriophage into eukaryotic neuroblastoma cells.Bacteria arise at the border of mycoplasma-infected HeLa cells, containing cytoplasm with either malformed cytosol, mitochondria and endoplasmic reticulum or tightly adjoined smooth vacuoles.Bacterial Infection and Associated Cancers.Potential Effects of Horizontal Gene Exchange in the Human Gut.Lateral gene transfer between prokaryotes and eukaryotes.Analysis of microbial sequences in plasma cell-free DNA for early-onset breast cancer patients and healthy females.Horizontal gene transfer in the acquisition of novel traits by metazoans.HGT-ID: an efficient and sensitive workflow to detect human-viral insertion sites using next-generation sequencing dataPatterns and mechanisms of structural variations in human cancer
P2860
Q26799059-6BCAA2EA-F127-4B7E-85ED-E09E7CDDF9CAQ26864092-E25B35D7-DF64-44CD-BDD4-84DFC8F8EA9BQ28394381-FB9FEFEA-0E58-48ED-B9A8-0BA5A8C0528FQ28821250-4A4CFABB-C032-49F8-A0EF-00C96A200706Q31156466-9F0431C1-7A5C-4941-A99C-C87D155906B0Q33826237-A73A7FFF-6504-4D8C-ADBE-1FA8BF53C19AQ34053726-85677527-D95D-4532-8E71-7CBC104CE01DQ34129392-B454DBBB-667E-4A1B-88BC-AF80F71F33C8Q34161811-8D761C56-DB46-4781-BA0C-128456C2FF36Q34241546-A8C99D32-E02F-4586-83E4-BC7DB2A173DCQ34470083-CCBDE35D-5426-4753-95D5-51004319E9D4Q34993097-01031CD4-67D0-439D-A0B2-7B73604087F3Q35102993-D3D21009-E425-40B7-9993-12AF49FB3E40Q35820966-418E95FF-35FD-4FF0-B7D8-6EFE6E80E521Q35826754-6E68FF14-732F-4657-A536-5BD77D2D6E30Q35854627-500A0DB1-E018-432F-A27D-8A6A7483FE67Q35965581-FDC743BB-E06E-4459-AB0D-5198DA31A566Q36709092-D380FAB0-11AE-4235-A28A-42769A3F2392Q37486656-1C5E3BA7-F4EB-4CBE-8444-99C4440657AFQ37716976-2E7167D3-9DE3-4336-8EFD-B87270EF3171Q38192723-C859A7C3-1AC5-4188-9A2A-D57C8AB3116EQ38549036-AF65B9F9-2C6C-47EE-93BD-41F861B7182DQ38935534-AFAADAD3-068A-4FB9-B512-200909D2C587Q38990686-EF916FA8-6122-4968-A5EC-33C3312F83FAQ39104046-83A31341-E174-4A16-A807-0B481C67ACFDQ40110539-C261AD4B-2D11-40B4-99C5-40768760C819Q42170770-BD0F8AFB-C46F-45F2-B160-D8412045A6F8Q42219681-ED727390-AFE7-4599-89FD-EFE6E9460184Q42370919-388C5F36-9C25-428D-A65C-00F3E56E88A8Q45880869-DDFB9819-1E14-4B10-9177-B61402AE8903Q45943395-074C4075-6FB1-4E57-A469-2642A2E553EAQ47111414-FC9B939A-8F86-42BE-B6DB-6711BED48036Q47136040-54DB55ED-FB69-4C00-B3D9-31CD3CEFBA01Q47606290-A823198C-3786-43E8-8A4B-1D11AEF15658Q49258334-E46DE3B3-E72C-4969-898E-65A02BD43037Q52725181-7E486DB7-174D-4B1D-94C2-6BF06B64B164Q53080587-9FC8086B-281E-42B6-BCA5-271CE3666ABEQ55511956-417D0412-BCE3-41AC-A5C3-1F5F9807E8B8Q56889635-C345A04A-97E2-4E86-8DB6-2F3477DD3479Q58797497-28CAAFED-A5C4-4386-A8D6-01464790628D
P2860
Bacteria-human somatic cell lateral gene transfer is enriched in cancer samples
description
2013 nî lūn-bûn
@nan
2013 թուականին հրատարակուած գիտական յօդուած
@hyw
2013 թվականին հրատարակված գիտական հոդված
@hy
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
name
Bacteria-human somatic cell lateral gene transfer is enriched in cancer samples
@ast
Bacteria-human somatic cell lateral gene transfer is enriched in cancer samples
@en
Bacteria-human somatic cell lateral gene transfer is enriched in cancer samples
@en-gb
Bacteria-human somatic cell lateral gene transfer is enriched in cancer samples
@nl
type
label
Bacteria-human somatic cell lateral gene transfer is enriched in cancer samples
@ast
Bacteria-human somatic cell lateral gene transfer is enriched in cancer samples
@en
Bacteria-human somatic cell lateral gene transfer is enriched in cancer samples
@en-gb
Bacteria-human somatic cell lateral gene transfer is enriched in cancer samples
@nl
altLabel
Bacteria-Human Somatic Cell Lateral Gene Transfer Is Enriched in Cancer Samples
@en
prefLabel
Bacteria-human somatic cell lateral gene transfer is enriched in cancer samples
@ast
Bacteria-human somatic cell lateral gene transfer is enriched in cancer samples
@en
Bacteria-human somatic cell lateral gene transfer is enriched in cancer samples
@en-gb
Bacteria-human somatic cell lateral gene transfer is enriched in cancer samples
@nl
P2093
P2860
P3181
P1476
Bacteria-human somatic cell lateral gene transfer is enriched in cancer samples
@en
P2093
Ashwinkumar Ganesan
David R Riley
James Robert White
Julie C Dunning Hotopp
Karsten B Sieber
Kelly M Robinson
Syrus Nourbakhsh
P2860
P304
P3181
P356
10.1371/JOURNAL.PCBI.1003107
P407
P577
2013-01-01T00:00:00Z