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Results:
1-19
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Results: 19
Authors:
GOLD MO
RICE AP
Citation: Mo. Gold et Ap. Rice, TARGETING OF CDK8 TO A PROMOTER-PROXIMAL RNA ELEMENT DEMONSTRATES CATALYSIS-DEPENDENT ACTIVATION OF GENE-EXPRESSION, Nucleic acids research, 26(16), 1998, pp. 3784-3788
Authors:
GOLD MO
YANG XZ
HERRMANN CH
RICE AP
Citation: Mo. Gold et al., PITALRE, THE CATALYTIC SUBUNIT OF TAK, IS REQUIRED FOR HUMAN-IMMUNODEFICIENCY-VIRUS TAT TRANSACTIVATION IN-VIVO, Journal of virology, 72(5), 1998, pp. 4448-4453
Authors:
HERRMANN CH
CARROLL RG
WEI P
JONES KA
RICE AP
Citation: Ch. Herrmann et al., TAT-ASSOCIATED KINASE, TAK, ACTIVITY IS REGULATED BY DISTINCT MECHANISMS IN PERIPHERAL-BLOOD LYMPHOCYTES AND PROMONOCYTIC CELL-LINES, Journal of virology (Print), 72(12), 1998, pp. 9881-9888
Authors:
RHIM H
RICE AP
Citation: H. Rhim et Ap. Rice, RNAS SELECTED IN-VITRO BY THE HIV-2 TAT PROTEIN, Journal of biomedical science, 4(1), 1997, pp. 28-34
Authors:
JIANG W
YEH NC
TOMBRELLO TA
RICE AP
HOLTZBERG F
Citation: W. Jiang et al., CURRENT-DRIVEN VORTEX DYNAMICS IN UNTWINNED YBA2CU3O7 SUPERCONDUCTINGSINGLE-CRYSTALS, Journal of physics. Condensed matter, 9(38), 1997, pp. 8085-8100
Authors:
YANG XZ
GOLD MO
TANG DN
LEWIS DE
AGUILARCORDOVA E
RICE AP
HERRMANN CH
Citation: Xz. Yang et al., TAK, AN HIV TAT-ASSOCIATED KINASE, IS A MEMBER OF THE CYCLIN-DEPENDENT FAMILY OF PROTEIN-KINASES AND IS INDUCED BY ACTIVATION OF PERIPHERAL-BLOOD LYMPHOCYTES AND DIFFERENTIATION OF PROMONOCYTIC CELL-LINES, Proceedings of the National Academy of Sciences of the United Statesof America, 94(23), 1997, pp. 12331-12336
Authors:
WANG ZD
MORRIS GF
RICE AP
XIONG WY
MORRIS CB
Citation: Zd. Wang et al., WILD-TYPE AND TRANSACTIVATION-DEFECTIVE MUTANTS OF HUMAN-IMMUNODEFICIENCY-VIRUS TYPE-1 TAT PROTEIN BIND HUMAN TATA-BINDING PROTEIN IN-VITRO, Journal of acquired immune deficiency syndromes and human retrovirology, 12(2), 1996, pp. 128-138
Authors:
HERRMANN CH
GOLD MO
RICE AP
Citation: Ch. Herrmann et al., VIRAL TRANSACTIVATORS SPECIFICALLY TARGET DISTINCT CELLULAR PROTEIN-KINASES THAT PHOSPHORYLATE THE RNA-POLYMERASE-II C-TERMINAL DOMAIN, Nucleic acids research, 24(3), 1996, pp. 501-508
Authors:
GOLD MO
TASSAN JP
NIGG EA
RICE AP
HERRMANN CH
Citation: Mo. Gold et al., VIRAL TRANSACTIVATORS E1A AND VP16 INTERACT WITH A LARGE COMPLEX THATIS ASSOCIATED WITH CTD KINASE-ACTIVITY AND CONTAINS CDK8, Nucleic acids research, 24(19), 1996, pp. 3771-3777
Authors:
YANG XZ
HERRMANN CH
RICE AP
Citation: Xz. Yang et al., THE HUMAN-IMMUNODEFICIENCY-VIRUS TAT PROTEINS SPECIFICALLY ASSOCIATE WITH TAK IN-VIVO AND REQUIRE THE CARBOXY-TERMINAL DOMAIN OF RNA-POLYMERASE-II FOR FUNCTION, Journal of virology, 70(7), 1996, pp. 4576-4584
Authors:
AGUILARCORDOVA E
CHINEN J
DONEHOWER LA
HARPER JW
RICE AP
BUTEL JS
BELMONT JW
Citation: E. Aguilarcordova et al., INHIBITION OF HIV-1 BY A DOUBLE TRANSDOMINANT FUSION GENE, Gene therapy, 2(3), 1995, pp. 181-186
Authors:
RHIM H
RICE AP
Citation: H. Rhim et Ap. Rice, HIV-1 TAT PROTEIN IS ABLE TO EFFICIENTLY TRANSACTIVATE THE HIV-2 LTR THROUGH A TAR RNA ELEMENT LACKING BOTH DINUCLEOTIDE BULGE BINDING-SITES, Virology, 206(1), 1995, pp. 673-678
Authors:
HERRMANN CH
RICE AP
Citation: Ch. Herrmann et Ap. Rice, LENTIVIRUS TAT PROTEINS SPECIFICALLY ASSOCIATE WITH A CELLULAR PROTEIN-KINASE, TAK, THAT HYPERPHOSPHORYLATES THE CARBOXYL-TERMINAL DOMAIN OF THE LARGE SUBUNIT OF RNA-POLYMERASE .2. CANDIDATE FOR A TAT COFACTOR, Journal of virology, 69(3), 1995, pp. 1612-1620
Authors:
ECHETEBU CO
RHIM H
HERRMANN CH
RICE AP
Citation: Co. Echetebu et al., CONSTRUCTION AND CHARACTERIZATION OF A POTENT HIV-2 TAT TRANSDOMINANTMUTANT PROTEIN, Journal of acquired immune deficiency syndromes, 7(7), 1994, pp. 655-664
Authors:
RHIM H
ECHETEBU CO
HERRMANN CH
RICE AP
Citation: H. Rhim et al., WILD-TYPE AND MUTANT HIV-1 AND HIV-2 TAT PROTEINS EXPRESSED IN ESCHERICHIA-COLI AS FUSIONS WITH GLUTATHIONE-S-TRANSFERASE, Journal of acquired immune deficiency syndromes, 7(11), 1994, pp. 1116-1121
Authors:
RHIM H
RICE AP
Citation: H. Rhim et Ap. Rice, EXON2 OF HIV-2 TAT CONTRIBUTES TO TRANSACTIVATION OF THE HIV-2 LTR BYINCREASING BINDING-AFFINITY TO HIV-2 TAR RNA, Nucleic acids research, 22(21), 1994, pp. 4405-4413
Authors:
RHIM H
RICE AP
Citation: H. Rhim et Ap. Rice, FUNCTIONAL-SIGNIFICANCE OF THE DINUCLEOTIDE BULGE IN STEM-LOOP1 AND STEM-LOOP2 OF HIV-2 TAR RNA, Virology, 202(1), 1994, pp. 202-211
Authors:
ECHETEBU CO
RICE AP
Citation: Co. Echetebu et Ap. Rice, MUTATIONAL ANALYSIS OF THE AMINO AND CARBOXY TERMINI OF THE HIV-2 TATPROTEIN, Journal of acquired immune deficiency syndromes, 6(6), 1993, pp. 550-557
Authors:
HERRMANN CH
RICE AP
Citation: Ch. Herrmann et Ap. Rice, SPECIFIC INTERACTION OF THE HUMAN-IMMUNODEFICIENCY-VIRUS TAT PROTEINSWITH A CELLULAR PROTEIN-KINASE, Virology, 197(2), 1993, pp. 601-608
Risultati:
1-19
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