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Details on Person Structure-function analysis of human Spt4: evidence that hSpt4 and hSpt5 exert their roles in transcriptional elongation as parts of the DSIF complex.
| Class:Id | LiteratureReference:113797 |
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| _displayName | Structure-function analysis of human Spt4: evidence that hSpt4 and hSpt5 exert their roles in transcriptional elongation as parts of the DSIF complex. |
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| _timestamp | 2011-07-19 17:43:53 |
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| author | [Person:114202] Kim, DK
[Person:114198] Inukai, N
[Person:114203] Yamada, T
[Person:114204] Furuya, A
[Person:114205] Sato, H
[Person:114197] Yamaguchi, Y
[Person:114200] Wada, T
[Person:114201] Handa, Hiroshi |
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| journal | Genes Cells |
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| modified | [InstanceEdit:1455306] D'Eustachio, P, 2011-07-19 |
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| pages | 371-8 |
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| pubMedIdentifier | 12653964 |
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| title | Structure-function analysis of human Spt4: evidence that hSpt4 and hSpt5 exert their roles in transcriptional elongation as parts of the DSIF complex. |
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| volume | 8 |
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| year | 2003 |
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| (literatureReference) | [Summation:112416] DSIF is a heterodimer consisting of hSPT4 (human homolog of ...
[Summation:170745] This HIV-1 event was inferred from the corresponding human R...
[Reaction:167083] DSIF complex binds to RNA Pol II (hypophosphorylated) [Homo sapiens]
[Pathway:167158] Formation of the HIV-1 Early Elongation Complex [Homo sapiens] |
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