about
A global view of cancer-specific transcript variants by subtractive transcriptome-wide analysisMicroRNAs expression signatures are associated with lineage and survival in acute leukemias.Pravastatin reverses obesity-induced dysfunction of induced pluripotent stem cell-derived endothelial cells via a nitric oxide-dependent mechanism.Young intragenic miRNAs are less coexpressed with host genes than old ones: implications of miRNA-host gene coevolution.Systematic Characterization of Long Noncoding RNAs Reveals the Contrasting Coordination of Cis- and Trans-Molecular Regulation in Human Fetal and Adult Hearts.miR-9 is an essential oncogenic microRNA specifically overexpressed in mixed lineage leukemia-rearranged leukemia.TET1 plays an essential oncogenic role in MLL-rearranged leukemiaKrüppel-like factor 8 activates the transcription of C-X-C cytokine receptor type 4 to promote breast cancer cell invasion, transendothelial migration and metastasis.Genome-wide detection of testis- and testicular cancer-specific alternative splicing.Glycine confers neuroprotection through microRNA-301a/PTEN signaling.CSCD: a database for cancer-specific circular RNAs.CircView: a visualization and exploration tool for circular RNAs.Comprehensive characterization of tissue-specific circular RNAs in the human and mouse genomes.GATA family of transcription factors of vertebrates: phylogenetics and chromosomal synteny.Genome-wide characterization of lncRNAs in acute myeloid leukemia.Genome-wide identification of cancer-specific alternative splicing in circRNACVm6A: A Visualization and Exploration Database for m⁶As in Cell LinesThe RNA N6-methyladenosine modification landscape of human fetal tissues
P50
Q21092137-C50D8D97-232E-497D-A870-48E6A899594EQ33691247-855C8297-EFCB-427F-926E-EB160B94ABAAQ35237250-DBB23103-6E39-48E5-A266-DD2AF5B88506Q35956013-31A39A87-6000-4875-800E-869A607214E9Q36888921-730B4BD3-DE5D-4DEE-AB4A-3D6D75860102Q37010564-5CC85390-07E2-4A64-BC27-DF710717A144Q37031819-9488F749-45CE-4A57-956E-0C5D5BADF81BQ37269072-3E8395B4-41FD-4B9B-8BF2-09099AD41BFEQ42629984-9599F8E3-563A-4BCF-8757-DA857F6174C8Q42760842-C9BDB14C-5C7A-4714-994C-9A6389FAC1E8Q42778173-807749EC-813A-4BF4-9A1F-31A0BBB4BC77Q46268195-28DEA25D-C89A-4C05-B33A-3992DDF32DBFQ46499521-5AED9A17-7736-42FB-B6B2-B5FE1712499DQ51966932-7AEE1950-B8BE-4C2A-BAAD-732350FEAAF7Q53190281-989461E7-81F0-4E71-8A94-C1C6F3DF756CQ64116726-E58CAD4B-FC94-4409-AE62-CAFC9E87CFFAQ64243933-CE2F8687-01A6-46EC-9ECE-D01E876DE153Q91624848-D67C96D9-2C41-476B-BD3D-1C787B4667A8
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Chunjiang He
@ast
Chunjiang He
@en
Chunjiang He
@es
Chunjiang He
@nl
Chunjiang He
@sl
type
label
Chunjiang He
@ast
Chunjiang He
@en
Chunjiang He
@es
Chunjiang He
@nl
Chunjiang He
@sl
prefLabel
Chunjiang He
@ast
Chunjiang He
@en
Chunjiang He
@es
Chunjiang He
@nl
Chunjiang He
@sl
P1053
N-4316-2016
P106
P108
P31
P3829
P496
0000-0002-4868-331X
P569
2000-01-01T00:00:00Z