Spontaneous transformation of murine epithelial cells requires the early acquisition of specific chromosomal aneuploidies and genomic imbalances.
about
NCI-HPN-F1A MamNCI-HPN-F1B KidNCI-HPN-F1D KidNCI-HPN-F1G BladNCI-HPN-F1G KidNCI-HPN-F1G MamNCI-HPN-F1I CervixNCI-HPN-F1I MamNCI-HPN-F1K ColonNCI-HPN-F1L CervixNCI-HPN-F1Q KidNCI-HPN-F23 MamNCI-HPN-F24 MamNCI-HPN-F2B LungNCI-HPN-F2G BladNCI-HPN-F2G KidNCI-HPN-F2G LungNCI-HPN-F2I CervixNCI-HPN-F2K ColonNCI-HPN-F2L CervixNCI-HPN-F3A LungNCI-HPN-F3K ColonNCI-HPN-F43 MamNCI-HPN-F44 MamNCI-HPN-F4K ColonNCI-HPN-F5A CervixNCI-HPN-M1A LungNCI-HPN-M1C BladNCI-HPN-M1C ColonNCI-HPN-M1C KidNCI-HPN-M1C LungNCI-HPN-M1G KidNCI-HPN-M1G LungNCI-HPN-M1I BladNCI-HPN-M1K ColonNCI-HPN-M1N KidNCI-HPN-M1P KidNCI-HPN-M2C BladNCI-HPN-M2C ColonNCI-HPN-M2C Kid
P1343
The consequences of chromosomal aneuploidy on the transcriptome of cancer cellsSimulated space radiation-induced mutants in the mouse kidney display widespread genomic changeInflammation-mediated genetic and epigenetic alterations drive cancer development in the neighboring epithelium upon stromal abrogation of TGF-β signaling.Widespread Non-Canonical Epigenetic Modifications in MMTV-NeuT Breast Cancer.ATM deficiency promotes development of murine B-cell lymphomas that resemble diffuse large B-cell lymphoma in humans.Immunosurveillance against tetraploidization-induced colon tumorigenesis.The pivotal role of IKKα in the development of spontaneous lung squamous cell carcinomas.Aneuploidy, oncogene amplification and epithelial to mesenchymal transition define spontaneous transformation of murine epithelial cells.New insights into the troubles of aneuploidyDevelopment of a cell line from the American eel brain expressing endothelial cell properties.CRISPR/CAS9 Technologies.The shock of being united and symphiliosis. Another lesson from plants?Norovirus Cell Tropism Is Determined by Combinatorial Action of a Viral Non-structural Protein and Host Cytokine.SMYD5 Controls Heterochromatin and Chromosome Integrity during Embryonic Stem Cell Differentiation.Novel mouse model recapitulates genome and transcriptome alterations in human colorectal carcinomas.Increased insulin-like growth factor 1 production by polyploid adipose stem cells promotes growth of breast cancer cells
P2860
Q54908149-CF59779D-420B-4F18-9913-A5E619B78BD9Q54908150-0E832107-25C6-441C-9F0B-649B762D4A8EQ54908151-CAA1A758-4FBD-4E92-A0E4-7BE460AEE8FCQ54908152-4DEBCE42-087E-46D0-AFD6-FD286E46F244Q54908153-2F8974FA-3324-48C9-BA33-5BA95D84DB27Q54908154-F3026DE0-BC48-411B-BC54-001DAB38F3A1Q54908155-047EB154-928D-4030-AA0B-7774DB1344ABQ54908156-65B6DB60-2E93-4368-BBAD-A2946F831A09Q54908157-828DB600-655B-48FF-868F-69BCD0DD71FFQ54908158-8ADE229F-1F43-4D2E-AE44-FC84FDCC8495Q54908159-1DEACADC-DEBC-4ACD-961D-AFD0CBB638CBQ54908161-A8A45AD6-8252-4C71-B840-DC44E943A243Q54908162-3708634E-2543-4012-8673-041F679E7E9EQ54908164-76825A37-9B19-4502-A1EA-94C28A78978EQ54908165-F4635092-54F9-4F09-A3AA-276347DB4CB8Q54908166-49AEA1B5-B2C8-4F01-B97D-D4C068334579Q54908167-73794755-353F-4943-BA2C-36EBEA42F852Q54908168-EF76348B-4DAB-4977-A588-0118E3552E45Q54908169-73B60447-19E7-4C9A-80F1-E90C5CBA2B86Q54908170-A9D7FFA6-3EAC-4921-B232-1E38180FF5BBQ54908171-E06F72A2-4C2D-4DC9-920D-79C53E5F5867Q54908172-6A0048CB-0626-4B22-9552-2CF638298BACQ54908174-2E4DC7EB-B161-4B0E-91DF-5BC11A6CB4C0Q54908175-5D1586E1-0F97-4A83-9668-FDD5AA4877AAQ54908176-9D2FBA51-08F2-48B5-82CD-6570B3A830A7Q54908177-D58E65EA-6D64-4C0A-BD5D-E2CD6671F286Q54908178-A60BBF42-63CD-485A-80B8-FCAB6D5A5E46Q54908179-09F6F885-1EA3-4A79-9A10-3825D986B714Q54908180-58817344-DD6C-43E7-92F4-3EB9349B210EQ54908181-AFEA17FE-5D75-4729-9EF4-444FF6D2DEE2Q54908182-D9AD5566-7375-4A16-A6FD-B19760EB9029Q54908189-7A61B4C5-A839-4700-947C-B3D4AEDBC504Q54908190-A7C34195-EB4D-43FD-A1FD-363326B21991Q54908191-C3A22962-CDCD-46DA-9AEB-861E5B1C1C23Q54908192-20EAC08A-097B-4DD4-AD35-FEF926EA7DD9Q54908193-DD52F762-6DFC-4EB4-97CB-E9A8FC3B3715Q54908194-DBBA46E9-B182-4B84-B7C1-5D6F4C81E9E7Q54908195-FAFC040C-8C11-4641-8728-CC93BBE25880Q54908196-36AB3942-B8E7-4B98-9722-18B7EED6E66DQ54908197-9502219F-8CEB-4B0D-8118-FAC71D9D5A42
P1343
Q26995532-0B947BE3-9358-41B4-BE52-7C2ACDDF1D7DQ33880617-E8EC1B18-33FA-436B-8735-9A12669ED20AQ34585721-D497ECB3-B77D-428C-B818-250D12268316Q35555414-85CF6DB6-FB3D-4F1D-ABFB-86A4B3876C2FQ36274840-D5C10F07-4121-4C52-B9E8-537AAA015B24Q36654387-D8B8F863-3D2A-45B8-91B4-F87E5D1DC2BFQ36829459-2B2D8A39-F94A-4FA6-BFE2-6485DEC3F209Q37065361-95AE6A73-F826-45F1-A042-552FA51B0020Q37574324-52F6ACC3-3CD8-41AD-967D-53FDFB763CE5Q38808180-DD97467F-A58E-409A-A27C-4C0D9D0A7CB1Q38946079-1454C759-E5F7-4350-ABF3-74F629B8C604Q41918920-53A254B3-E7CB-49F8-85B4-CB46682613E8Q41927114-5944F6A8-E161-4DE7-B93B-3AA033E91DE8Q47739121-F7BD2E44-3507-4C43-BD48-3314711B0458Q52975664-39CC0002-EF71-4D75-9D03-26A8034680CEQ58763185-62081FA7-67CE-400C-8173-5B1B3F85BD59
P2860
Spontaneous transformation of murine epithelial cells requires the early acquisition of specific chromosomal aneuploidies and genomic imbalances.
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
2011年论文
@zh
2011年论文
@zh-cn
name
Spontaneous transformation of ...... oidies and genomic imbalances.
@ast
Spontaneous transformation of ...... oidies and genomic imbalances.
@en
type
label
Spontaneous transformation of ...... oidies and genomic imbalances.
@ast
Spontaneous transformation of ...... oidies and genomic imbalances.
@en
prefLabel
Spontaneous transformation of ...... oidies and genomic imbalances.
@ast
Spontaneous transformation of ...... oidies and genomic imbalances.
@en
P2093
P2860
P4510
P356
P1476
Spontaneous transformation of ...... oidies and genomic imbalances.
@en
P2093
Daniel Hoeppner
Danny Wangsa
David Mack
Hesed M Padilla-Nash
Karen Hathcock
Kathleen Dorritie
Linda Barenboim
Nicole E McNeil
Raluca Yonescu
P2860
P304
P356
10.1002/GCC.21921
P4510
P577
2011-12-08T00:00:00Z