Braun IC, Herold A, Rode M, Izaurralde E.

Bachi, The C-terminal domain of TAP interacts with the nuclear pore complex and promotes export of specific CTE-bearing RNA substrates. 2000, Pubmed, Xenbase

Bachi, The C-terminal domain of TAP interacts with the nuclear pore complex and promotes export of specific CTE-bearing RNA substrates. 2000, Pubmed , Xenbase
Bayliss, Structural basis for the interaction between FxFG nucleoporin repeats and importin-beta in nuclear trafficking. 2000, Pubmed
Bayliss, Interaction between NTF2 and xFxFG-containing nucleoporins is required to mediate nuclear import of RanGDP. 1999, Pubmed , Xenbase
Bear, Identification of novel import and export signals of human TAP, the protein that binds to the constitutive transport element of the type D retrovirus mRNAs. 1999, Pubmed , Xenbase
Black, NXT1 is necessary for the terminal step of Crm1-mediated nuclear export. 2001, Pubmed
Black, Identification of an NTF2-related factor that binds Ran-GTP and regulates nuclear protein export. 1999, Pubmed
Braun, Overexpression of TAP/p15 heterodimers bypasses nuclear retention and stimulates nuclear mRNA export. 2001, Pubmed , Xenbase
Braun, TAP binds to the constitutive transport element (CTE) through a novel RNA-binding motif that is sufficient to promote CTE-dependent RNA export from the nucleus. 1999, Pubmed , Xenbase
Conti, Nucleocytoplasmic transport enters the atomic age. 2001, Pubmed
Fribourg, Structural basis for the recognition of a nucleoporin FG repeat by the NTF2-like domain of the TAP/p15 mRNA nuclear export factor. 2001, Pubmed
Grant, Structure of the C-terminal FG-nucleoporin binding domain of Tap/NXF1. 2002, Pubmed
Grüter, TAP, the human homolog of Mex67p, mediates CTE-dependent RNA export from the nucleus. 1998, Pubmed , Xenbase
Guzik, NXT1 (p15) is a crucial cellular cofactor in TAP-dependent export of intron-containing RNA in mammalian cells. 2001, Pubmed
Herold, NXF1/p15 heterodimers are essential for mRNA nuclear export in Drosophila. 2001, Pubmed
Herold, TAP (NXF1) belongs to a multigene family of putative RNA export factors with a conserved modular architecture. 2000, Pubmed
Huang, Minimal Rev-response element for type 1 human immunodeficiency virus. 1991, Pubmed
Jarmolowski, Nuclear export of different classes of RNA is mediated by specific factors. 1994, Pubmed , Xenbase
Jun, NXF5, a novel member of the nuclear RNA export factor family, is lost in a male patient with a syndromic form of mental retardation. 2001, Pubmed
Kang, The human Tap protein is a nuclear mRNA export factor that contains novel RNA-binding and nucleocytoplasmic transport sequences. 1999, Pubmed
Kang, Analysis of cellular factors that mediate nuclear export of RNAs bearing the Mason-Pfizer monkey virus constitutive transport element. 2000, Pubmed
Katahira, Complex formation between Tap and p15 affects binding to FG-repeat nucleoporins and nucleocytoplasmic shuttling. 2002, Pubmed
Katahira, The Mex67p-mediated nuclear mRNA export pathway is conserved from yeast to human. 1999, Pubmed
Lévesque, RNA export mediated by tap involves NXT1-dependent interactions with the nuclear pore complex. 2001, Pubmed
Liker, The structure of the mRNA export factor TAP reveals a cis arrangement of a non-canonical RNP domain and an LRR domain. 2000, Pubmed
Luo, Splicing is required for rapid and efficient mRNA export in metazoans. 1999, Pubmed , Xenbase
Mattaj, Nucleocytoplasmic transport: the soluble phase. 1998, Pubmed
Nakielny, Transport of proteins and RNAs in and out of the nucleus. 1999, Pubmed
Ossareh-Nazari, RanGTP-binding protein NXT1 facilitates nuclear export of different classes of RNA in vitro. 2000, Pubmed , Xenbase
Pasquinelli, The constitutive transport element (CTE) of Mason-Pfizer monkey virus (MPMV) accesses a cellular mRNA export pathway. 1997, Pubmed , Xenbase
Ribbeck, Kinetic analysis of translocation through nuclear pore complexes. 2001, Pubmed
Ryan, The nuclear pore complex: a protein machine bridging the nucleus and cytoplasm. 2000, Pubmed
Saavedra, The simian retrovirus-1 constitutive transport element, unlike the HIV-1 RRE, uses factors required for cellular mRNA export. 1997, Pubmed , Xenbase
Segref, Mex67p, a novel factor for nuclear mRNA export, binds to both poly(A)+ RNA and nuclear pores. 1997, Pubmed
Stewart, Structural basis for molecular recognition between nuclear transport factor 2 (NTF2) and the GDP-bound form of the Ras-family GTPase Ran. 1998, Pubmed
Strässer, Binding of the Mex67p/Mtr2p heterodimer to FXFG, GLFG, and FG repeat nucleoporins is essential for nuclear mRNA export. 2000, Pubmed
Suyama, Prediction of structural domains of TAP reveals details of its interaction with p15 and nucleoporins. 2000, Pubmed
Tan, The mRNA export in Caenorhabditis elegans is mediated by Ce-NXF-1, an ortholog of human TAP/NXF and Saccharomyces cerevisiae Mex67p. 2000, Pubmed
Vankan, Domains of U4 and U6 snRNAs required for snRNP assembly and splicing complementation in Xenopus oocytes. 1990, Pubmed , Xenbase
Wiegand, Formation of Tap/NXT1 heterodimers activates Tap-dependent nuclear mRNA export by enhancing recruitment to nuclear pore complexes. 2002, Pubmed
Wilkie, Small bristles, the Drosophila ortholog of NXF-1, is essential for mRNA export throughout development. 2001, Pubmed
Yang, Two closely related human nuclear export factors utilize entirely distinct export pathways. 2001, Pubmed
Yoon, Mex67p of Schizosaccharomyces pombe interacts with Rae1p in mediating mRNA export. 2000, Pubmed