original ) (raw )
Aguilera A, Klein HL (1990) Mol Cell Biol 10:1439–1451 Google Scholar
Alani E, Thresher R, Griffith JD, Kolodner RD (1992) J Mol Biol 227:54–71 Google Scholar
Amstutz H, Munz P, Heyer WD, Leupold U, Kohli J (1985) Cell 40:879–886 Google Scholar
Bailis A, Rothstein R (1990) Genetics 126:535–547 Google Scholar
Bailly V, Sommers CH, Sung P, Prakash L, Prakash S (1992) Proc Natl Acad Sci USA 89:8273–8277 Google Scholar
Baker RT (1992) Cell 70:877 Google Scholar
Bardwell L, Cooper AJ, Friedburg EC (1992) Mol Cell Biol 12:3041–3049 Google Scholar
Barker DG, Johnson AL, Johnston LH (1985) Mol Gen Genet 200:458–462 Google Scholar
Basile G, Aker M, Mortimer RK (1992) Mol Cell Biol 12:3235–3246 Google Scholar
Bishop DK, Williamson MS, Fogel S, Kolodner RD (1987) Nature: 362–363
Bishop DK, Andersen J, Kolodner RD (1989) Proc Natl Acad Sci USA 86:3713–3717 Google Scholar
Bishop DK, Park D, Xu L, Kleckner N (1992) Cell 69:439–456 Google Scholar
Brill SJ, Stillman B (1989) Nature 342:92–95 Google Scholar
Brill SJ, Stillman B (1991) Genes Dev 5:1589–1600 Google Scholar
Broach JR, Guarascio VR, Jayaram M (1982) Cell 29:227–234 Google Scholar
Bruschi CV, Esposito MS (1983) Proc Natl Acad Sci USA 80:7566–7570 Google Scholar
Bruschi CV, Howe GA (1988) Curr Genet 14:191–199 Google Scholar
Bruschi CV, Ludwig DL (1989) Curr Genet 15:83–90 Google Scholar
Camerini-Otero RD, Hsieh P (1993) Cell 73:217–223 Google Scholar
Cao L, Alani E, Kleckner L (1990) Cell 61:1089–1101 Google Scholar
Christman MF, Dietrich FS, Fink GR (1988) Cell 55:413–425 Google Scholar
Ciriacy M, Breilmann D (1982) Curr Genet 6:55–61 Google Scholar
Clark AB, Dykstra CC, Sugino A (1991) Mol Cell Biol 11:2576–2582 Google Scholar
Davies CJ, Trgovcich J, Hutchison CA (1990) Nature 345:298 Google Scholar
Derr LK, Strathern JN (1993) Nature 361:170–173 Google Scholar
Derr L.K., Strathern JN, Garfinkel D (1991) Cell 67:355–364 Google Scholar
Detloff P, Sieber J, Petes TD (1991) Mol Cell Biol 11:737–745 Google Scholar
Dinardo S, Voelkel K, Sternglanz R (1984) Proc Natl Acad Sci USA 81:2616–2620 Google Scholar
Duin M van, de Wit J, Odijk H, Westerveld A, Yasui A, Koken MHM, Hoeijmakers JHJ, Bootsma D (1986) Cell 44:913–923 Google Scholar
Dujon B (1989) Gene 82:431–441 Google Scholar
Dykstra CC, Hamatake RK, Sugino A (1990) J Biol Chem 265:10968–10973 Google Scholar
Dykstra CC, Kitada K, Clark AB, Hamatake RK, Sugino A (1991) Mol Cell Biol 11:2583–2592 Google Scholar
Egel R, Beach DH, Klar AJS (1984) Proc Natl Acad Sci USA 81:3481–3485 Google Scholar
Engebrecht J, Hirsch J, Roeder GS (1990) Cell 62:927–937 Google Scholar
Esposito MS (1969) Genetics 58:507–527 Google Scholar
Esposito MS (1984) Soc Exp Biol Symp 38:123–159 Google Scholar
Esposito MS, Brown JT (1990) Curr Genet 17:7–12 Google Scholar
Esposito MS, Bruschi CV (1993) Curr Genet 23:430–434 Google Scholar
Esposito MS, Maleas D, Bjornstad K, Bruschi CV (1982) Curr Genet 6:5–12 Google Scholar
Esposito MS, Hosoda J, Golin J, Moise H, Bjornstad K, Maleas D (1984) Cold Spring Harbor Symp Quant Biol 49:41–48 Google Scholar
Esposito MS, Maleas D, Bjornstad K, Holbrook LL (1986) Curr Genet 10:425–433 Google Scholar
Fishel R, Rich A (1988) UCLA Symp Mol Biol (New Ser) 83:23–32 Google Scholar
Fogel S, Roth R (1974) Mol Gen Genet 130:189–201 Google Scholar
Formosa T, Alberts B (1986) Cell 47:793–806 Google Scholar
Friedberg EC, Siede W, Cooper AJ (1991) In: Broach JR, Pringle JR, Jones EW (eds) The molecular and cellular biology of the yeast_Saccharomyces_: genome dynamics, protein synthesis and energetics, vol 1. Cold Spring Harbor Laboratory, Cold Spring Harbor, New York, pp 147–192 Google Scholar
Game J, Johnston L, von Borstel R (1979) Proc Natl Acad Sci USA 76:4589–4592 Google Scholar
Gimble FS, Thorner J (1992) Nature 357:301–306 Google Scholar
Gloor GB, Nassif NA, Johnson-Schlitz DM, Preston CR, Engels WR (1991) Science 253:1110–1117 Google Scholar
Golin JE, Esposito MS (1981) Mol Gen Genet 183:252–263 Google Scholar
Goyon C, Lichten M (1993) Mol Cell Biol 13:373–382 Google Scholar
Hartwell LH, Smith D (1985) Genetics 110:381–395 Google Scholar
Hawley RS, Arbel T (1993) Cell 72:301–303 Google Scholar
Heyer WD, Kolodner RD (1989) Biochemistry 28:2856–2862 Google Scholar
Heyer WD, Evans DH, Kolodner RD (1988) J Biol Chem 263:15189–15195 Google Scholar
Heyer WD, Rao RS, Erdile LF, Kelly TJ, Kolodner RD (1990) EMBO J 9:2321–2329 Google Scholar
Heyer WD, Johnson AW, Norris DN, Tishkoff D, Kolodner RD (1991) Biochemie 73:269–276 Google Scholar
Hirashima S, Hirai H, Nakanishi Y, Natori S (1988) J Biol Chem 263:3858–3863 Google Scholar
Holliday R (1964) Genet Res 5:282–304 Google Scholar
Holm C, Stearns T, Botstein D (1989) Mol Cell Biol 9:159–168 Google Scholar
Hubert C, Guyonvarch A, Kammerer B, Exinger F, Liljelund P, Lacroute F (1983) EMBO J 2:2071–2073 Google Scholar
Jacobson GK, Pinon R, Esposito R, Esposito MS (1975) Proc Natl Acad Sci USA 72:1887–1891 Google Scholar
Jinks-Robertson S, Petes TD (1986) Genetics 114:731–752 Google Scholar
Johnson AW, Kolodner RD (1991) J Biol Chem 266:14046–14054 Google Scholar
Kallenbach S, Rougeon F (1992) Res Immunol 143:873–878 Google Scholar
Kans JA, Mortimer RK (1991) Gene 105:139–140 Google Scholar
Kim J, Ljungdahl PO, Fink GR (1990) Genetics 126:799–812 Google Scholar
Kipling D, Kearsey SE (1991) Nature 353:509 Google Scholar
Klar AJS, Miglio LM (1986) Cell 46:725–731 Google Scholar
Klar AJS, Strathern JN (1984) Nature 310:744–748 Google Scholar
Kleff S, Kemper B, Sternglanz R (1992) EMBO J 11:699–704 Google Scholar
Klein HL (1988) Genetics 120:367–377 Google Scholar
Kolodkin AL, Klar AJS, Stahl FW (1986) Cell 46:733–740 Google Scholar
Kolodner RD, Evans DH, Morrison PT (1987) Proc Natl Acad Sci USA 84:5560–5564 Google Scholar
Kostriken R, Strathern JN, Klar AJS, Hicks JB, Heffron F (1983) Cell 35:167–174 Google Scholar
Kramer B, Kramer W, Williamson MS, Fogel S (1989 a) Mol Cell Biol 9:4432–4440 Google Scholar
Kramer W, Kramer B, Williamson MS, Fogel S (1989 b) J. Bacteriol 171:5339–5346 Google Scholar
Kuhmer MK, Lawlor DA, Ennis PD, Parham P (1991) Tissue Antigens 38:152–164 Google Scholar
Larimer FW, Stevens A (1990) Gene 95:85–90 Google Scholar
Lichten M, Borts RH, Haber JE (1987) Genetics 115:233–246 Google Scholar
Lichten M, Goyon C, Schultes NP, Treco D, Szostak JW, Haber JE, Nicolas A (1990) Proc Natl Acd Sci USA 87:7653–7657 Google Scholar
Louis EJ, Haber JE (1990 a) Genetics 124:533–545 Google Scholar
Louis EJ, Haber JE (1990 b) Genetics 124:547–559 Google Scholar
Malone RE, Bullard S, Ludquist S, Kim S, Tarkowski T (1992) Nature 359:154–155 Google Scholar
McGill CB, Shafer BK, Derr LK, Strathern JN (1993) Curr Genet 23:305–314 Google Scholar
Melamed C, Nevo Y, Kupiec M (1992) Mol Cell Biol 4:1613–1620 Google Scholar
Meselson MS, Radding CM (1975) Proc Natl Acad Sci USA 72:358–361 Google Scholar
Montelone BA, Prakash L, Prakash L (1981) J Bacteriol 147:517–525 Google Scholar
Mortimer RK, Contopolou R, Schild D (1982) Proc Natl Acad Sci USA 78:5778–5782 Google Scholar
Nag DK, White MW, Petes TD, (1989) Nature 340:318–320 Google Scholar
Nakagawa K, Morishima N, Shibata T (1992) EMBO J 11:2707–2715 Google Scholar
Nickoloff JA, Chen EY, Heffron F (1986) Genetics 83:7831–7831 Google Scholar
Nicolas A, Treco D, Schultes NP, Szostak JW (1989) Nature 238:35–39 Google Scholar
Norris D, Kolodner RD (1990 a) Biochemistry 29:7903–7911 Google Scholar
Norris, D, Kolodner, RD (1990 b) Biochemistry 29:7911–7917 Google Scholar
Oettinger MA, Schatz DA, Gorka C, Baltimore D (1990) Science 248:1517–1523 Google Scholar
Ogawa T, Yu X, Shinohara A, Egelman EH (1993) Science 259:1896–1899 Google Scholar
Ohta T (1991) J. Mol Evol 33:34–41 Google Scholar
Padmore R, Cao L, Kleckner N (1991) Cell 66:1239–1256 Google Scholar
Parsons RL, Prasad PV, Hershey RM, Jayaram M (1988) Mol Cell Biol 8:3303–3310 Google Scholar
Petes TD, Malone RE, Symington LS (1991). In: Broach JR, Pringle JR, Jones EW (eds) The molecular and cellular biology of the yeast_Saccharomyces_: genome dynamics, protein synthesis and energetics, vol 1. Cold Spring Harbor Laboratory, Cold Spring Harbor, New York, pp 407–521 Google Scholar
Plessis A, Perrin A, Haber JE, Dujon B (1992) Genetics 130:451–460 Google Scholar
Pluta AF, Zakian VA (1989) Nature 337:429–433 Google Scholar
Radding CM (1982) Annu Rev Genet 16:405–407 Google Scholar
Radding CM (1991) J Biol Chem 266:5355–5358 Google Scholar
Reenan RA, Kolodner RD (1992 a) Genetics 132:963–974 Google Scholar
Reenan RA, Kolodner RD (1992 b) Genetics 132:975–985 Google Scholar
Rocco V, de Masy B, Nicolas A (1992) Proc Natl Acad Sci USA 89:12068–12072 Google Scholar
Rockmill B, Roeder GS (1990) Genetics 126:563–574 Google Scholar
Roman H, Ruzinski MM (1990) Genetics 124:7–25 Google Scholar
Ronne H, Rothstein R (1988) Proc Natl Acad Sci USA 85:2696–2700 Google Scholar
Rothstein R (1984) Cold Spring Harbor Symp Quant Biol 49:629–637 Google Scholar
Rothstein R, Helms C, Rosenberg N (1987) Mol Cell Biol 7:1198–1207 Google Scholar
Sauer B (1987) Mol Cell Biol 7:2087–2096 Google Scholar
Schaeffer L, Roy R, Humbert S, Moncollin V, Vermeulen W, Hocjmakers JHJ, Chambon P, Egly JM (1993) Science 260: 58–63 Google Scholar
Schertan H, Loidj J, Schuster T, Schweizer D (1992) Chromosoma 101:590–595 Google Scholar
Schiestl RH, Prakash S (1988) Mol Cell Biol 8:3619–3626 Google Scholar
Schiestl RH, Prakash S (1990) Mol Cell Biol 10:2485–2491 Google Scholar
Schultes NP, Szostak JW (1990) Genetics 126:813–822 Google Scholar
Schultes NP, Szostak JW (1991) Mol Cell Biol 11:322–328 Google Scholar
Schwartz CJE, Sadowsi P (1989) J Mol Biol 295:647–658 Google Scholar
Selby CP, Sancar A (1993) Science 260:53–58 Google Scholar
Shinohara A, Ogawa H, Ogawa T (1992) Cell 69:457–470 Google Scholar
Solomon E, Borrow J, Goddard AD (1991) Science 254:1153–1160 Google Scholar
Stewart SE, Roeder GS (1989) Mol Cell Biol 9:3464–3472 Google Scholar
Story RM, Bishop DK, Kleckner N, Steitz TA (1993) Science 259:1892–1896 Google Scholar
Strathern JN, Klar AJS, Hicks JB, Abraham JA, Ivy JM, Nasmyth KA, McGill C (1982) Cell 31:183–192 Google Scholar
Strathern JN, Weinstock KG, Higgins DR, McGill C (1991) Genetics 127:61–73 Google Scholar
Sugino A, Nitiss, Resnick MA (1988) Proc Natl Acad Sci USA 85:3683–3687 Google Scholar
Sun H, Treco D, Schultes NP, Szostak JW (1989) Nature 238: 87–90 Google Scholar
Sun H, Treco D, Szostak JW (1991) Cell 64:1155–1161 Google Scholar
Sung P, Prakash L, Prakash S (1992) Nature 355:743–745 Google Scholar
Sym M, Engebrecht J, Roeder GS (1993) Cell 72:365–378 Google Scholar
Szankasi P, Gysler C, Zehthner U, Leupold U Kohli J (1986) Mol Gen Genet 202:394–402 Google Scholar
Szostak JW, Orr-Weaver TL, Rothstein RJ, Stahl FW (1983) Cell 33:25–35 Google Scholar
Thaler DS, Stahl FW (1988) Annu Rev Genet 22:169–198 Google Scholar
Thomas BJ, Rothstein R (1989) Cell 56:619–630 Google Scholar
Tishkoff DX, Johnson AW, Kolodner RD (1991) Mol Cell Biol 11:2593–2608 Google Scholar
Tomkinson AE, Bardwell AJ, Bardwell L, Tappe NJ, Friedberg EC (1993) Nature 362:860–862 Google Scholar
Treco D, Thomas B, Arnheim N (1985) Mol Cell Biol 5:2029–2038 Google Scholar
Voelkel-Meiman K, Roeder GS (1990) Genetics 124:561–572 Google Scholar
Wallis JW, Chrebet G, Brodsky G, Rolfe M, Rothstein R (1989) Cell 58:409–419 Google Scholar
West SC (1992) Annu Rev Biochem 61:603–640 Google Scholar
White MA, Detloff P, Strand M, Petes TD (1992) Curr Genet 21:109–116 Google Scholar
Whitehouse H (1982) Genetic recombination. John Wiley and Sons Ltd, London Google Scholar
Williamson MS, Game JC, Fogel S (1985) Genetics 110:609–646 Google Scholar
Wold MS, Weinberg DH, Virshup DM, Li JJ, Kelly TJ (1989) J Biol Chem 264:2801–2809 Google Scholar
Zakian VA, Blanton H, Martin Dani G (1985) Curr Genet 9:441–445 Google Scholar
Zenvirth D, Arbel T, Sherman A, Goldway M, Klein S, Simchen G (1992) EMBO J 9:3441–3447 Google Scholar
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