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Publications

The following timeline graph is generated from all co-authored publications.

Featured publications are shown below:

  1. A role for Gle1, a regulator of DEAD-box RNA helicases, at centrosomes and basal bodies. Jao LE, Akef A, Wente SR (2017) Mol Biol Cell 28(1): 120-127
    › Primary publication · 28035044 (PubMed) · PMC5221616 (PubMed Central)
  2. Nup100 regulates Saccharomyces cerevisiae replicative life span by mediating the nuclear export of specific tRNAs. Lord CL, Ospovat O, Wente SR (2017) RNA 23(3): 365-377
    › Primary publication · 27932586 (PubMed) · PMC5311497 (PubMed Central)
  3. Simple rules for passive diffusion through the nuclear pore complex. Timney BL, Raveh B, Mironska R, Trivedi JM, Kim SJ, Russel D, Wente SR, Sali A, Rout MP (2016) J Cell Biol 215(1): 57-76
    › Primary publication · 27697925 (PubMed) · PMC5057280 (PubMed Central)
  4. An amyotrophic lateral sclerosis-linked mutation in GLE1 alters the cellular pool of human Gle1 functional isoforms. Aditi , Glass L, Dawson TR, Wente SR (2016) Adv Biol Regul : 25-36
    › Primary publication · 26776475 (PubMed) · PMC4864155 (PubMed Central)
  5. Combining Spinach-tagged RNA and gene localization to image gene expression in live yeast. Guet D, Burns LT, Maji S, Boulanger J, Hersen P, Wente SR, Salamero J, Dargemont C (2015) Nat Commun : 8882
    › Primary publication · 26582123 (PubMed) · PMC4673486 (PubMed Central)
  6. A Novel Saccharomyces cerevisiae FG Nucleoporin Mutant Collection for Use in Nuclear Pore Complex Functional Experiments. Adams RL, Terry LJ, Wente SR (2015) G3 (Bethesda) 6(1): 51-8
    › Primary publication · 26530420 (PubMed) · PMC4704724 (PubMed Central)
  7. Nuclear pore complex integrity requires Lnp1, a regulator of cortical endoplasmic reticulum. Casey AK, Chen S, Novick P, Ferro-Novick S, Wente SR (2015) Mol Biol Cell 26(15): 2833-44
    › Primary publication · 26041935 (PubMed) · PMC4571342 (PubMed Central)
  8. Altering nuclear pore complex function impacts longevity and mitochondrial function in S. cerevisiae. Lord CL, Timney BL, Rout MP, Wente SR (2015) J Cell Biol 208(6): 729-44
    › Primary publication · 25778920 (PubMed) · PMC4362458 (PubMed Central)
  9. Cytoplasmic hGle1A regulates stress granules by modulation of translation. Aditi , Folkmann AW, Wente SR (2015) Mol Biol Cell 26(8): 1476-90
    › Primary publication · 25694449 (PubMed) · PMC4395128 (PubMed Central)
  10. Deleterious mutations in the essential mRNA metabolism factor, hGle1, in amyotrophic lateral sclerosis. Kaneb HM, Folkmann AW, Belzil VV, Jao LE, Leblond CS, Girard SL, Daoud H, Noreau A, Rochefort D, Hince P, Szuto A, Levert A, Vidal S, André-Guimont C, Camu W, Bouchard JP, Dupré N, Rouleau GA, Wente SR, Dion PA (2015) Hum Mol Genet 24(5): 1363-73
    › Primary publication · 25343993 (PubMed) · PMC4321443 (PubMed Central)
  11. Nucleoporin FG domains facilitate mRNP remodeling at the cytoplasmic face of the nuclear pore complex. Adams RL, Terry LJ, Wente SR (2014) Genetics 197(4): 1213-24
    › Primary publication · 24931410 (PubMed) · PMC4125395 (PubMed Central)
  12. Casein kinase II regulation of the Hot1 transcription factor promotes stochastic gene expression. Burns LT, Wente SR (2014) J Biol Chem 289(25): 17668-79
    › Primary publication · 24817120 (PubMed) · PMC4067201 (PubMed Central)
  13. From hypothesis to mechanism: uncovering nuclear pore complex links to gene expression. Burns LT, Wente SR (2014) Mol Cell Biol 34(12): 2114-20
    › Primary publication · 24615017 (PubMed) · PMC4054283 (PubMed Central)
  14. Insights into mRNA export-linked molecular mechanisms of human disease through a Gle1 structure-function analysis. Folkmann AW, Dawson TR, Wente SR (2014) Adv Biol Regul : 74-91
    › Primary publication · 24275432 (PubMed) · PMC3932673 (PubMed Central)
  15. Uncovering nuclear pore complexity with innovation. Adams RL, Wente SR (2013) Cell 152(6): 1218-21
    › Primary publication · 23498931 (PubMed) · PMC3672239 (PubMed Central)
  16. Integrity and function of the Saccharomyces cerevisiae spindle pole body depends on connections between the membrane proteins Ndc1, Rtn1, and Yop1. Casey AK, Dawson TR, Chen J, Friederichs JM, Jaspersen SL, Wente SR (2012) Genetics 192(2): 441-55
    › Primary publication · 22798490 (PubMed) · PMC3454875 (PubMed Central)
  17. A zebrafish model of lethal congenital contracture syndrome 1 reveals Gle1 function in spinal neural precursor survival and motor axon arborization. Jao LE, Appel B, Wente SR (2012) Development 139(7): 1316-26
    › Primary publication · 22357925 (PubMed) · PMC3294435 (PubMed Central)
  18. Trafficking to uncharted territory of the nuclear envelope. Burns LT, Wente SR (2012) Curr Opin Cell Biol 24(3): 341-9
    › Primary publication · 22326668 (PubMed) · PMC3518394 (PubMed Central)
  19. Dbp5, Gle1-IP6 and Nup159: a working model for mRNP export. Folkmann AW, Noble KN, Cole CN, Wente SR (2011) Nucleus 2(6): 540-8
    › Primary publication · 22064466 (PubMed) · PMC3324343 (PubMed Central)
  20. Spatial and temporal impacts on a career in science. Wente SR (2011) Mol Biol Cell 22(21): 3923-5
    › Primary publication · 22039063 (PubMed) · PMC3204050 (PubMed Central)
  21. The Dbp5 cycle at the nuclear pore complex during mRNA export II: nucleotide cycling and mRNP remodeling by Dbp5 are controlled by Nup159 and Gle1. Noble KN, Tran EJ, Alcázar-Román AR, Hodge CA, Cole CN, Wente SR (2011) Genes Dev 25(10): 1065-77
    › Primary publication · 21576266 (PubMed) · PMC3093122 (PubMed Central)
  22. The Dbp5 cycle at the nuclear pore complex during mRNA export I: dbp5 mutants with defects in RNA binding and ATP hydrolysis define key steps for Nup159 and Gle1. Hodge CA, Tran EJ, Noble KN, Alcazar-Roman AR, Ben-Yishay R, Scarcelli JJ, Folkmann AW, Shav-Tal Y, Wente SR, Cole CN (2011) Genes Dev 25(10): 1052-64
    › Primary publication · 21576265 (PubMed) · PMC3093121 (PubMed Central)
  23. The mitogen-activated protein kinase Slt2 regulates nuclear retention of non-heat shock mRNAs during heat shock-induced stress. Carmody SR, Tran EJ, Apponi LH, Corbett AH, Wente SR (2010) Mol Cell Biol 30(21): 5168-79
    › Primary publication · 20823268 (PubMed) · PMC2953050 (PubMed Central)
  24. Facilitated transport and diffusion take distinct spatial routes through the nuclear pore complex. Fiserova J, Richards SA, Wente SR, Goldberg MW (2010) J Cell Sci 123(Pt 16): 2773-80
    › Primary publication · 20647373 (PubMed) · PMC2915879 (PubMed Central)
  25. The nuclear pore complex and nuclear transport. Wente SR, Rout MP (2010) Cold Spring Harb Perspect Biol 2(10): a000562
    › Primary publication · 20630994 (PubMed) · PMC2944363 (PubMed Central)
  26. Recognition of polyadenosine RNA by the zinc finger domain of nuclear poly(A) RNA-binding protein 2 (Nab2) is required for correct mRNA 3'-end formation. Kelly SM, Leung SW, Apponi LH, Bramley AM, Tran EJ, Chekanova JA, Wente SR, Corbett AH (2010) J Biol Chem 285(34): 26022-32
    › Primary publication · 20554526 (PubMed) · PMC2924000 (PubMed Central)
  27. Nuclear mRNA on the move. Noble KN, Wente SR (2010) Nat Cell Biol 12(6): 525-7
    › Primary publication · 20517300 (PubMed)
  28. Structural basis for the function of the Saccharomyces cerevisiae Gfd1 protein in mRNA nuclear export. Zheng C, Fasken MB, Marshall NJ, Brockmann C, Rubinson ME, Wente SR, Corbett AH, Stewart M (2010) J Biol Chem 285(27): 20704-15
    › Primary publication · 20463024 (PubMed) · PMC2898303 (PubMed Central)
  29. Control of mRNA export and translation termination by inositol hexakisphosphate requires specific interaction with Gle1. Alcázar-Román AR, Bolger TA, Wente SR (2010) J Biol Chem 285(22): 16683-92
    › Primary publication · 20371601 (PubMed) · PMC2878036 (PubMed Central)
  30. Border control at the nucleus: biogenesis and organization of the nuclear membrane and pore complexes. Hetzer MW, Wente SR (2009) Dev Cell 17(5): 606-16
    › Primary publication · 19922866 (PubMed) · PMC3746554 (PubMed Central)
  31. Zebrafish inositol polyphosphate kinases: new effectors of cilia and developmental signaling. Sarmah B, Wente SR (2010) Adv Enzyme Regul 50(1): 309-23
    › Primary publication · 19914277 (PubMed) · PMC3753175 (PubMed Central)
  32. Flexible gates: dynamic topologies and functions for FG nucleoporins in nucleocytoplasmic transport. Terry LJ, Wente SR (2009) Eukaryot Cell 8(12): 1814-27
    › Primary publication · 19801417 (PubMed) · PMC2794212 (PubMed Central)
  33. Ty3 nuclear entry is initiated by viruslike particle docking on GLFG nucleoporins. Beliakova-Bethell N, Terry LJ, Bilanchone V, DaSilva R, Nagashima K, Wente SR, Sandmeyer S (2009) J Virol 83(22): 11914-25
    › Primary publication · 19759143 (PubMed) · PMC2772691 (PubMed Central)
  34. mRNA nuclear export at a glance. Carmody SR, Wente SR (2009) J Cell Sci 122(Pt 12): 1933-7
    › Primary publication · 19494120 (PubMed) · PMC2723150 (PubMed Central)
  35. ER membrane-bending proteins are necessary for de novo nuclear pore formation. Dawson TR, Lazarus MD, Hetzer MW, Wente SR (2009) J Cell Biol 184(5): 659-75
    › Primary publication · 19273614 (PubMed) · PMC2686408 (PubMed Central)
  36. Dual functions for the Schizosaccharomyces pombe inositol kinase Ipk1 in nuclear mRNA export and polarized cell growth. Sarmah B, Wente SR (2009) Eukaryot Cell 8(2): 134-46
    › Primary publication · 19047361 (PubMed) · PMC2643608 (PubMed Central)
  37. The mRNA export factor Gle1 and inositol hexakisphosphate regulate distinct stages of translation. Bolger TA, Folkmann AW, Tran EJ, Wente SR (2008) Cell 134(4): 624-33
    › Primary publication · 18724935 (PubMed) · PMC2601711 (PubMed Central)
  38. The DEAD-box protein Dbp5 controls mRNA export by triggering specific RNA:protein remodeling events. Tran EJ, Zhou Y, Corbett AH, Wente SR (2007) Mol Cell 28(5): 850-9
    › Primary publication · 18082609 (PubMed)
  39. A role for the inositol kinase Ipk1 in ciliary beating and length maintenance. Sarmah B, Winfrey VP, Olson GE, Appel B, Wente SR (2007) Proc Natl Acad Sci U S A 104(50): 19843-8
    › Primary publication · 18056639 (PubMed) · PMC2148385 (PubMed Central)
  40. Crossing the nuclear envelope: hierarchical regulation of nucleocytoplasmic transport. Terry LJ, Shows EB, Wente SR (2007) Science 318(5855): 1412-6
    › Primary publication · 18048681 (PubMed)
  41. SnapShot: nuclear transport. Tran EJ, Bolger TA, Wente SR (2007) Cell 131(2): 420
    › Primary publication · 17956740 (PubMed)
  42. Inositol polyphosphates: a new frontier for regulating gene expression. Alcázar-Román AR, Wente SR (2008) Chromosoma 117(1): 1-13
    › Primary publication · 17943301 (PubMed)
  43. Nuclear mRNA export requires specific FG nucleoporins for translocation through the nuclear pore complex. Terry LJ, Wente SR (2007) J Cell Biol 178(7): 1121-32
    › Primary publication · 17875746 (PubMed) · PMC2064648 (PubMed Central)
  44. The karyopherin Kap95 regulates nuclear pore complex assembly into intact nuclear envelopes in vivo. Ryan KJ, Zhou Y, Wente SR (2007) Mol Biol Cell 18(3): 886-98
    › Primary publication · 17182855 (PubMed) · PMC1805111 (PubMed Central)
  45. Transitional B cell fate is associated with developmental stage-specific regulation of diacylglycerol and calcium signaling upon B cell receptor engagement. Hoek KL, Antony P, Lowe J, Shinners N, Sarmah B, Wente SR, Wang D, Gerstein RM, Khan WN (2006) J Immunol 177(8): 5405-13
    › Primary publication · 17015726 (PubMed)
  46. Inositol hexakisphosphate and Gle1 activate the DEAD-box protein Dbp5 for nuclear mRNA export. Alcázar-Román AR, Tran EJ, Guo S, Wente SR (2006) Nat Cell Biol 8(7): 711-6
    › Primary publication · 16783363 (PubMed)
  47. Dynamic nuclear pore complexes: life on the edge. Tran EJ, Wente SR (2006) Cell 125(6): 1041-53
    › Primary publication · 16777596 (PubMed)
  48. The integral membrane protein Pom34p functionally links nucleoporin subcomplexes. Miao M, Ryan KJ, Wente SR (2006) Genetics 172(3): 1441-57
    › Primary publication · 16361228 (PubMed) · PMC1456286 (PubMed Central)
  49. Interaction between the shuttling mRNA export factor Gle1 and the nucleoporin hCG1: a conserved mechanism in the export of Hsp70 mRNA. Kendirgi F, Rexer DJ, Alcázar-Román AR, Onishko HM, Wente SR (2005) Mol Biol Cell 16(9): 4304-15
    › Primary publication · 16000379 (PubMed) · PMC1196339 (PubMed Central)
  50. Inositol polyphosphates regulate zebrafish left-right asymmetry. Sarmah B, Latimer AJ, Appel B, Wente SR (2005) Dev Cell 9(1): 133-45
    › Primary publication · 15992547 (PubMed)
  51. Cytoplasmic inositol hexakisphosphate production is sufficient for mediating the Gle1-mRNA export pathway. Miller AL, Suntharalingam M, Johnson SL, Audhya A, Emr SD, Wente SR (2004) J Biol Chem 279(49): 51022-32
    › Primary publication · 15459192 (PubMed)
  52. Nuclear export of the yeast mRNA-binding protein Nab2 is linked to a direct interaction with Gfd1 and to Gle1 function. Suntharalingam M, Alcázar-Román AR, Wente SR (2004) J Biol Chem 279(34): 35384-91
    › Primary publication · 15208322 (PubMed)
  53. Minimal nuclear pore complexes define FG repeat domains essential for transport. Strawn LA, Shen T, Shulga N, Goldfarb DS, Wente SR (2004) Nat Cell Biol 6(3): 197-206
    › Primary publication · 15039779 (PubMed)
  54. Yeast nuclear pore complexes have a cytoplasmic ring and internal filaments. Kiseleva E, Allen TD, Rutherford S, Bucci M, Wente SR, Goldberg MW (2004) J Struct Biol 145(3): 272-88
    › Primary publication · 14960378 (PubMed)
  55. Pores for thought: nuclear pore complex proteins. Rout MP, Wente SR (1994) Trends Cell Biol 4(10): 357-65
    › Primary publication · 14731624 (PubMed)
  56. The mRNA export factor human Gle1 interacts with the nuclear pore complex protein Nup155. Rayala HJ, Kendirgi F, Barry DM, Majerus PW, Wente SR (2004) Mol Cell Proteomics 3(2): 145-55
    › Primary publication · 14645504 (PubMed)
  57. Peering through the pore: nuclear pore complex structure, assembly, and function. Suntharalingam M, Wente SR (2003) Dev Cell 4(6): 775-89
    › Primary publication · 12791264 (PubMed)
  58. An essential role for hGle1 nucleocytoplasmic shuttling in mRNA export. Kendirgi F, Barry DM, Griffis ER, Powers MA, Wente SR (2003) J Cell Biol 160(7): 1029-40
    › Primary publication · 12668658 (PubMed) · PMC2172758 (PubMed Central)
  59. The Ran GTPase cycle is required for yeast nuclear pore complex assembly. Ryan KJ, McCaffery JM, Wente SR (2003) J Cell Biol 160(7): 1041-53
    › Primary publication · 12654904 (PubMed) · PMC2172763 (PubMed Central)
  60. Nuclear transport: never-ending cycles of signals and receptors. Barry DM, Wente SR (2000) Essays Biochem : 89-103
    › Primary publication · 12471905 (PubMed)
  61. Regulation of chromatin remodeling by inositol polyphosphates. Steger DJ, Haswell ES, Miller AL, Wente SR, O'Shea EK (2003) Science 299(5603): 114-6
    › Primary publication · 12434012 (PubMed) · PMC1458531 (PubMed Central)
  62. GLFG and FxFG nucleoporins bind to overlapping sites on importin-beta. Bayliss R, Littlewood T, Strawn LA, Wente SR, Stewart M (2002) J Biol Chem 277(52): 50597-606
    › Primary publication · 12372823 (PubMed)
  63. The human homolog of the rat inositol phosphate multikinase is an inositol 1,3,4,6-tetrakisphosphate 5-kinase. Chang SC, Miller AL, Feng Y, Wente SR, Majerus PW (2002) J Biol Chem 277(46): 43836-43
    › Primary publication · 12223481 (PubMed)
  64. Isolation and characterization of new Saccharomyces cerevisiae mutants perturbed in nuclear pore complex assembly. Ryan KJ, Wente SR (2002) BMC Genet : 17
    › Primary publication · 12215173 (PubMed) · PMC126250 (PubMed Central)
  65. Prediction of novel Bag-1 homologs based on structure/function analysis identifies Snl1p as an Hsp70 co-chaperone in Saccharomyces cerevisiae. Sondermann H, Ho AK, Listenberger LL, Siegers K, Moarefi I, Wente SR, Hartl FU, Young JC (2002) J Biol Chem 277(36): 33220-7
    › Primary publication · 12105220 (PubMed)
  66. The synthesis of inositol hexakisphosphate. Characterization of human inositol 1,3,4,5,6-pentakisphosphate 2-kinase. Verbsky JW, Wilson MP, Kisseleva MV, Majerus PW, Wente SR (2002) J Biol Chem 277(35): 31857-62
    › Primary publication · 12084730 (PubMed)
  67. Phosphorylation regulates the interaction between Gln3p and the nuclear import factor Srp1p. Carvalho J, Bertram PG, Wente SR, Zheng XF (2001) J Biol Chem 276(27): 25359-65
    › Primary publication · 11331291 (PubMed)
  68. Overexpression of the inositol phosphatase SopB in human 293 cells stimulates cellular chloride influx and inhibits nuclear mRNA export. Feng Y, Wente SR, Majerus PW (2001) Proc Natl Acad Sci U S A 98(3): 875-9
    › Primary publication · 11158563 (PubMed) · PMC14677 (PubMed Central)
  69. The GLFG regions of Nup116p and Nup100p serve as binding sites for both Kap95p and Mex67p at the nuclear pore complex. Strawn LA, Shen T, Wente SR (2001) J Biol Chem 276(9): 6445-52
    › Primary publication · 11104765 (PubMed)
  70. Biochemical and functional characterization of inositol 1,3,4,5, 6-pentakisphosphate 2-kinases. Ives EB, Nichols J, Wente SR, York JD (2000) J Biol Chem 275(47): 36575-83
    › Primary publication · 10960485 (PubMed)
  71. Assembly and preferential localization of Nup116p on the cytoplasmic face of the nuclear pore complex by interaction with Nup82p. Ho AK, Shen TX, Ryan KJ, Kiseleva E, Levy MA, Allen TD, Wente SR (2000) Mol Cell Biol 20(15): 5736-48
    › Primary publication · 10891509 (PubMed) · PMC86051 (PubMed Central)
  72. Gatekeepers of the nucleus. Wente SR (2000) Science 288(5470): 1374-7
    › Primary publication · 10827939 (PubMed)
  73. The nuclear pore complex: a protein machine bridging the nucleus and cytoplasm. Ryan KJ, Wente SR (2000) Curr Opin Cell Biol 12(3): 361-71
    › Primary publication · 10801463 (PubMed)
  74. A role for nuclear inositol 1,4,5-trisphosphate kinase in transcriptional control. Odom AR, Stahlberg A, Wente SR, York JD (2000) Science 287(5460): 2026-9
    › Primary publication · 10720331 (PubMed)
  75. A phospholipase C-dependent inositol polyphosphate kinase pathway required for efficient messenger RNA export. York JD, Odom AR, Murphy R, Ives EB, Wente SR (1999) Science 285(5424): 96-100
    › Primary publication · 10390371 (PubMed)
  76. A novel fluorescence-based genetic strategy identifies mutants of Saccharomyces cerevisiae defective for nuclear pore complex assembly. Bucci M, Wente SR (1998) Mol Biol Cell 9(9): 2439-61
    › Primary publication · 9725905 (PubMed) · PMC25512 (PubMed Central)
  77. The human homologue of Saccharomyces cerevisiae Gle1p is required for poly(A)+ RNA export. Watkins JL, Murphy R, Emtage JL, Wente SR (1998) Proc Natl Acad Sci U S A 95(12): 6779-84
    › Primary publication · 9618489 (PubMed) · PMC22633 (PubMed Central)
  78. The integral membrane protein snl1p is genetically linked to yeast nuclear pore complex function. Ho AK, Raczniak GA, Ives EB, Wente SR (1998) Mol Biol Cell 9(2): 355-73
    › Primary publication · 9450961 (PubMed) · PMC25263 (PubMed Central)
  79. A nuclear export signal in Kap95p is required for both recycling the import factor and interaction with the nucleoporin GLFG repeat regions of Nup116p and Nup100p. Iovine MK, Wente SR (1997) J Cell Biol 137(4): 797-811
    › Primary publication · 9151683 (PubMed) · PMC2139834 (PubMed Central)
  80. Defining the essential functional regions of the nucleoporin Nup145p. Emtage JL, Bucci M, Watkins JL, Wente SR (1997) J Cell Sci : 911-25
    › Primary publication · 9133678 (PubMed)
  81. In vivo dynamics of nuclear pore complexes in yeast. Bucci M, Wente SR (1997) J Cell Biol 136(6): 1185-99
    › Primary publication · 9087436 (PubMed) · PMC2132514 (PubMed Central)
  82. GLE2, a Saccharomyces cerevisiae homologue of the Schizosaccharomyces pombe export factor RAE1, is required for nuclear pore complex structure and function. Murphy R, Watkins JL, Wente SR (1996) Mol Biol Cell 7(12): 1921-37
    › Primary publication · 8970155 (PubMed) · PMC276040 (PubMed Central)
  83. An RNA-export mediator with an essential nuclear export signal. Murphy R, Wente SR (1996) Nature 383(6598): 357-60
    › Primary publication · 8848052 (PubMed)
  84. The GLFG repetitive region of the nucleoporin Nup116p interacts with Kap95p, an essential yeast nuclear import factor. Iovine MK, Watkins JL, Wente SR (1995) J Cell Biol 131(6 Pt 2): 1699-713
    › Primary publication · 8557738 (PubMed) · PMC2120653 (PubMed Central)
  85. NUP145 encodes a novel yeast glycine-leucine-phenylalanine-glycine (GLFG) nucleoporin required for nuclear envelope structure. Wente SR, Blobel G (1994) J Cell Biol 125(5): 955-69
    › Primary publication · 8195299 (PubMed) · PMC2120051 (PubMed Central)
  86. A temperature-sensitive NUP116 null mutant forms a nuclear envelope seal over the yeast nuclear pore complex thereby blocking nucleocytoplasmic traffic. Wente SR, Blobel G (1993) J Cell Biol 123(2): 275-84
    › Primary publication · 7691829 (PubMed) · PMC2119834 (PubMed Central)
  87. Shared active sites in oligomeric enzymes: model studies with defective mutants of aspartate transcarbamoylase produced by site-directed mutagenesis. Wente SR, Schachman HK (1987) Proc Natl Acad Sci U S A 84(1): 31-5
    › Primary publication · 3540957 (PubMed) · PMC304135 (PubMed Central)
  88. Effect of amino acid substitutions on the catalytic and regulatory properties of aspartate transcarbamoylase. Robey EA, Wente SR, Markby DW, Flint A, Yang YR, Schachman HK (1986) Proc Natl Acad Sci U S A 83(16): 5934-8
    › Primary publication · 3526345 (PubMed) · PMC386411 (PubMed Central)
  89. Another version of the human insulin receptor kinase domain: expression, purification, and characterization. Villalba M, Wente SR, Russell DS, Ahn JC, Reichelderfer CF, Rosen OM (1989) Proc Natl Acad Sci U S A 86(20): 7848-52
    › Primary publication · 2554291 (PubMed) · PMC298168 (PubMed Central)
  90. Mn2(+)-binding properties of a recombinant protein-tyrosine kinase derived from the human insulin receptor. Wente SR, Villalba M, Schramm VL, Rosen OM (1990) Proc Natl Acad Sci U S A 87(7): 2805-9
    › Primary publication · 2157215 (PubMed) · PMC53779 (PubMed Central)
  91. Insulin-receptor approaches to studying protein kinase domain. Wente SR, Rosen OM (1990) Diabetes Care 13(3): 280-7
    › Primary publication · 2155093 (PubMed)
  92. Different amino acid substitutions at the same position in the nucleotide-binding site of aspartate transcarbamoylase have diverse effects on the allosteric properties of the enzyme. Wente SR, Schachman HK (1991) J Biol Chem 266(31): 20833-9
    › Primary publication · 1939134 (PubMed)
  93. A new family of yeast nuclear pore complex proteins. Wente SR, Rout MP, Blobel G (1992) J Cell Biol 119(4): 705-23
    › Primary publication · 1385442 (PubMed) · PMC2289698 (PubMed Central)