Protein targeting in yeast

References

1. Baker K. P., Schatz G. 1991; Mitochondrial proteins essential for viability mediate protein import into yeast mitochondria. Nature London: 349205–208
   [Google Scholar]
2. Baker D., Hicke L., Rexach M., Schleyer M., Schekman R. 1988; Reconstitution of SEC gene product-dependent intercom-partmental protein transport. Cell 54:335–344
   [Google Scholar]
3. Banta L. M., Robinson J. S., Klionsky D. J., Emr S. D. 1988; Organelle assembly in yeast: characterization of yeast mutants defective in vacuolar biogenesis and protein sorting. Journal of Cell Biology 107:1369–1383
   [Google Scholar]
4. Beckers C. J. M., Block M. R., Glick B. S., Rothman J. E., Balch W. E. 1989; Vesicular transport between the endoplasmic reticulum and the Golgi stack requires the NEM-sensitive fusion protein. Nature London: 339397–400
   [Google Scholar]
5. Bigelis R., Das R. C. 1988; Secretion research in industrial mycology. Protein Transfer and Organelle Biogenesis773–810 Das R. C., Robbins P. W. London: Academic Press;
   [Google Scholar]
6. Boyd A. 1989; The secretion of foreign proteins from yeast. Symposia of the Society for General Microbiology 44:271–291
   [Google Scholar]
7. Dean N., Pelham H. R. B. 1990; Recycling of proteins from the Golgi compartment to the ER in yeast. Journal of Cell Biology 111:369–377
   [Google Scholar]
8. Deshaies R. J., Schekman R. 1987; A yeast mutant defective at an early stage in import of secretory protein precursors into the endoplasmic reticulum. Journal of Cell Biology 105:633–645
   [Google Scholar]
9. Deshaies R. J., Koch B. D., Werner-Washburne M., Craig E. A., Schekman R. 1988; A subfamily of stress proteins facilitates translocation of secretory and mitochondrial precursor polypeptides. Nature London: 332800–805
   [Google Scholar]
10. Deshaies R. J., Sanders S. L., Feldheim D. A., Schekman R. 1991; Assembly of yeast Sec proteins involved in translocation into the endoplasmic reticulum into a membrane-bound multisubunit complex. Nature London: 349806–808
    [Google Scholar]
11. Ellis R. J., Hemmingsen S. M. 1989; Molecular chaperones: proteins essential for the biogenesis of some macromolecular structures. Trends in Biochemical Sciences 14:339–342
    [Google Scholar]
12. Ferguson M. A. J., Williams A. F. 1988; Cell-surface anchoring of proteins via glycosyl-phosphatidylinositol structures. Annual Review of Biochemistry 57:285–320
    [Google Scholar]
13. Glomset J. A., Gelb M. H., Farnsworth C. C. 1990; Prenyl proteins in eukaryotic cells : a new type of membrane anchor. Trendsin Biochemical Sciences 15:139–142
    [Google Scholar]
14. Gould S. J., Keller G.-A., Hosken N., Wilkinson J., Subramani S. 1989; A conserved tripeptide sorts proteins to peroxisomes. Journal of Cell Biology 108:1657–1664
    [Google Scholar]
15. Gould S. J., Keller G.-A., Schneider M., Howell S. H., Garrard L. J., Goodman J. M., Distel B., Tabak H., Subramani S. 1990; Peroxisomal protein import is conserved between yeast, plants, insects and mammals. EMBO Journal 9:85–90
    [Google Scholar]
16. Hann B. C., Poritz M. A., Walter P. 1989; Saccharomyces cerevisiae and Schizosaccharomyces pombe contain a homologue to the 54 kD subunit of the signal recognition particle that in S. cerevisiae is essential for growth. Journal of Cell Biology 109:3223–3230
    [Google Scholar]
17. Hartl F.-U., Neupert W. 1990; Protein sorting to mitochondria: evolutionary conservations of folding and assembly. Science 247:930–938
    [Google Scholar]
18. von Heijne G. 1986; Mitochondrial targeting sequences may form amphiphilic helices. EMBO Journal 5:1335–1342
    [Google Scholar]
19. Hicke L., Schekman R. 1989; Yeast Sec23p acts in the cytoplasm to promote protein transport from the ER to the Golgi complex in vivo and in vitro. EMBO Journal 8:1677–1684
    [Google Scholar]
20. Hicke L., Schekman R. 1990; Molecular machinery required for protein transport from the endoplasmic reticulum to the Golgi complex. BioEssays 12:253–258
    [Google Scholar]
21. Hurt E. C., van Loon A. P. G. M. 1986; How proteins find mitochondria and intramitochondrial compartments. Trends in Biochemical Sciences 11:204–207
    [Google Scholar]
22. Johnson L. M., Bankaitis V. A., Emr S. D. 1987; Distinct sequence determinants direct intracellular sorting and modification of a yeast vacuolar protein. Cell 48:875–885
    [Google Scholar]
23. Kaiser C. A., Schekman R. 1990; Distinct sets of SEC genes govern transport vesicle formation and fusion early in the secretory pathway. Cell 61:723–733
    [Google Scholar]
24. Kang P. J., Ostermann J., Shilling J., Neupert W., Craig E. A., Pfanner N. 1990; Requirement for hsp70 in the mitochondrial matrix for translocation and folding of precursor proteins. Nature London: 348137–143
    [Google Scholar]
25. Kiebler M., Pfaller R., Sòllner T., Griffiths G., Horstmann H., Pfanner N., Neupert W. 1990; Identification of a mitochondrial receptor complex required for recognition and membrane insertion of precursor proteins. Nature London: 348610–616
    [Google Scholar]
26. Klionsky D. J., Banta L. M., Emr S. D. 1988; Intracellular sorting and processing of a yeast vacuolar hydrolase : proteinase A propeptide contains vacuolar targeting information. Molecular Cell Biology 8:2105–2116
    [Google Scholar]
27. Klionsky D. J., Herman P. K., Emr S. D. 1990; The fungal vacuole : composition, function and biogenesis. Microbiological Reviews 54:266–292
    [Google Scholar]
28. Lewis M. J., Sweet D. J., Pelham H. R. B. 1990; The ERD2gene determines the specificity of the luminal ER protein retention system. Cell 61:1359–1363
    [Google Scholar]
29. Malhotra V., Serafini T., Glick B. S., Block M. R., Rothman J. E. 1988; Role of an Nethylamaleimide-sensitive transport component in protein transport through the Golgi stack. Cell 54:221–227
    [Google Scholar]
30. McGrath J. P., Varshavsky A. 1989; The yeast STE6 gene encodes a homologue of the mammalian multidrug resistance P-glycoprotein. Nature London: 340400–404
    [Google Scholar]
31. McIlhinney R. A. J. 1990; The fats of life: the importance and function of protein acylation. Trends in Biochemical Sciences 15:387–391
    [Google Scholar]
32. Muesch A., Hartmann E., Rohde K., Rubartelli A., Sitia R., Rapoport T. A. 1990; A novel pathway for secretory proteins?. Trends in Biochemical Sciences 15:86–88
    [Google Scholar]
33. Munro S., Pelham H. R. B. 1987; A C-terminal signal prevents secretion of luminal ER proteins. Cell 48:899–907
    [Google Scholar]
34. Nasmyth K., Adolf G., Lydall D., Seddon A. 1990; The identification of a second cell cycle control on the HO promoter in yeast: cell cycle regulation of SWI5 nuclear entry. Cell 62:631–647
    [Google Scholar]
35. Neupert W., Hartl F.-U., Craig E. A., Pfanner N. 1990; How do polypeptides cross the mitochondrial membranes?. Cell 63:447–450
    [Google Scholar]
36. Newman A. P., Ferro-Novick S. 1987; Characterization of new mutants in the early part of the yeast secretory pathway isolated by a [³H]mannose suicide selection. Journal of Cell Biology 105:1587–1594
    [Google Scholar]
37. Obar R. A., Collins C. A., Hammarback J. A., Shpetner H. S., Vallee R. B. 1990; Molecular cloning of the microtubule-associated mechanochemical enzyme dynamin reveals homology with a new family of GTP-binding proteins. Nature London: 347256–261
    [Google Scholar]
38. Pelham H. R. B. 1990; The retention signal for soluble proteins of the endoplasmic reticulum. Trends in Biochemical Sciences 15:483–486
    [Google Scholar]
39. Pfanner N., Neupert W. 1990; The mitochondrial protein import apparatus. Annual Review of Biochemistry 59:331–353
    [Google Scholar]
40. Pfanner N., Sollner T., Neupert W. 1991; Mitochondrial import receptors for precursor proteins. Trends in Biochemical Sciences 16:63–67
    [Google Scholar]
41. Rapoport T. A. 1990; Protein transport across the ER membrane. Trends in Biochemical Sciences 15:355–358
    [Google Scholar]
42. Reid G. A., Yonetani T., Schatz G. 1982; Import of proteins to the mitochondrial intermembrane space. Journal of Biological Chemistry 257:13068–13074
    [Google Scholar]
43. Rothman J. E. 1989; Polypeptide chain binding proteins: catalysts of protein folding and related processes in cells. Cell 59:591–601
    [Google Scholar]
44. Rothman J. H., Yamashiro C. T., Kane P. M., Stevens T. H. 1989a; Protein targeting to the yeast vacuole. Trends in Biochemical Sciences 14:347–350
    [Google Scholar]
45. Rothman J. H., Yamashiro C. T., Raymond C. K., Kane P. M., Stevens T. H. 1989b; Acidification of the lysosome-like vacuole and the vacuolar H⁺ATPase are deficient in two yeast mutants that fail to sort vacuolar proteins. Journal of Cell Biology 109:93–100
    [Google Scholar]
46. Sadler I., Chiang A., Kurihara T., Rothblatt J., Way J., Silver P. 1989; A yeast gene important for assembly into the endoplasmic reticulum and the nucleus has homology to DnaJ, an E. coli heat shock protein. Journal of Cell Biology 109:2665–2675
    [Google Scholar]
47. Schekman R. 1985; Protein localization and membrane traffic in yeast. Annual Review of Cell Biology 1:115–143
    [Google Scholar]
48. Scherer P. E., Krieg U. C., Hwang S. T., Vestweber D., Schatz G. 1990; A precursor protein partly translocated into yeast mitochondria is bound to a 70 kd mitochondrial stress protein. EMBO Journal 9:4315–4322
    [Google Scholar]
49. Segev N., Mulholland J., Botstein D. 1988; The yeast GTP-binding YPT1 protein and a mammalian counterpart are associated with the secretion machinery. Cell 52:915–924
    [Google Scholar]
50. Semenza J. C., Hardwick K. G., Dean N., Pelham H. R. B. 1990; ERD2 a yeast gene required for the receptor-mediated retrieval of luminal ER proteins from the secretory pathway. Cell 61:1349–1357
    [Google Scholar]
51. Silver P. 1991; How proteins enter the nucleus. Cell 64:489–97
    [Google Scholar]
52. Sollner T., Griffiths G., Pfaller R., Pfanner N., Neupert W. 1989; MOM19, an import receptor for mitochondrial precursor proteins. Cell 59:1061–1070
    [Google Scholar]
53. Valls L. A., Hunter C. P., Rothman J. H., Stevens T. H. 1987; Protein sorting in yeast: the localization determinant of yeast vacuolar carboxypeptidase Y resides in the propeptide. Cell AH887–897
    [Google Scholar]
54. Valls L. A., Winther J. R., Stevens T. H. 1991; Yeast carboxypeptidase Y vacuolar targeting signal is defined by four propeptide amino acids. Journal of Cell Biology 111:361–368
    [Google Scholar]
55. Vestweber D., Brunner J., Baker A., Schatz G. 1989; A 42K outer-membrane protein is a component of the yeast mitochondrial protein import site. Nature London: 341205–209
    [Google Scholar]
56. Vogel J. P., Misra L. M., Rose M. D. 1990; Loss of BÌP/GRP78 function blocks translocation of secretory proteins in yeast. Journal of Cell Biology 110:1885–1895
    [Google Scholar]
57. Wilson D. W., Wilcox C. A., Flynn G. C., Chen E., Kuang W.-J., Henzel W. J., Block M. R., Ulrich A., Rothman J. E. 1989; A fusion protein required for vesicle-mediated transport in both mammalian cells and yeast. Nature London: 339355–359
    [Google Scholar]