| Year |
Citation |
Score |
| 2017 |
García-Villegas R, Camacho-Villasana Y, Shingú-Vázquez MÁ, Cabrera-Orefice A, Uribe-Carvajal S, Fox TD, Pérez-Martínez X. The Cox1 Carboxyl-terminal Domain is a Central Regulator of Cytochrome c Oxidase Biogenesis in Yeast Mitochondria. The Journal of Biological Chemistry. PMID 28490636 DOI: 10.1074/jbc.M116.773077 |
0.444 |
|
| 2016 |
Imstepf S, Pierroz V, Rubbiani R, Felber M, Fox T, Gasser G, Alberto R. Organometallic Rhenium Complexes Divert Doxorubicin to the Mitochondria. Angewandte Chemie (International Ed. in English). PMID 26799241 DOI: 10.1002/Anie.201511432 |
0.303 |
|
| 2012 |
Fox TD. Mitochondrial protein synthesis, import, and assembly. Genetics. 192: 1203-34. PMID 23212899 DOI: 10.1534/genetics.112.141267 |
0.424 |
|
| 2012 |
Fox TD. An MBoC favorite: mitochondrial transmission during mating in Saccharomyces cerevisiae is determined by mitochondrial fusion and fission and the intramitochondrial segregation of mitochondrial DNA. Molecular Biology of the Cell. 23: 4144. PMID 23112221 DOI: 10.1091/mbc.E12-03-0182 |
0.327 |
|
| 2012 |
Kühl I, Fox TD, Bonnefoy N. Schizosaccharomyces pombe homologs of the Saccharomyces cerevisiae mitochondrial proteins Cbp6 and Mss51 function at a post-translational step of respiratory complex biogenesis. Mitochondrion. 12: 381-90. PMID 22349564 DOI: 10.1016/j.mito.2012.02.002 |
0.381 |
|
| 2012 |
Elliott LE, Saracco SA, Fox TD. Multiple roles of the Cox20 chaperone in assembly of Saccharomyces cerevisiae cytochrome c oxidase. Genetics. 190: 559-67. PMID 22095077 DOI: 10.1534/Genetics.111.135665 |
0.802 |
|
| 2011 |
Mick DU, Fox TD, Rehling P. Inventory control: cytochrome c oxidase assembly regulates mitochondrial translation. Nature Reviews. Molecular Cell Biology. 12: 14-20. PMID 21179059 DOI: 10.1038/nrm3029 |
0.406 |
|
| 2010 |
Shingú-Vázquez M, Camacho-Villasana Y, Sandoval-Romero L, Butler CA, Fox TD, Pérez-Martínez X. The carboxyl-terminal end of Cox1 is required for feedback assembly regulation of Cox1 synthesis in Saccharomyces cerevisiae mitochondria. The Journal of Biological Chemistry. 285: 34382-9. PMID 20807763 DOI: 10.1074/jbc.M110.161976 |
0.424 |
|
| 2009 |
Perez-Martinez X, Butler CA, Shingu-Vazquez M, Fox TD. Dual functions of Mss51 couple synthesis of Cox1 to assembly of cytochrome c oxidase in Saccharomyces cerevisiae mitochondria. Molecular Biology of the Cell. 20: 4371-80. PMID 19710419 DOI: 10.1091/mbc.E09-06-0522 |
0.433 |
|
| 2009 |
Ding MG, Butler CA, Saracco SA, Fox TD, Godard F, di Rago JP, Trumpower BL. Chapter 27 An improved method for introducing point mutations into the mitochondrial cytochrome B gene to facilitate studying the role of cytochrome B in the formation of reactive oxygen species. Methods in Enzymology. 456: 491-506. PMID 19348906 DOI: 10.1016/S0076-6879(08)04427-3 |
0.782 |
|
| 2009 |
Fiumera HL, Dunham MJ, Saracco SA, Butler CA, Kelly JA, Fox TD. Translocation and assembly of mitochondrially coded Saccharomyces cerevisiae cytochrome c oxidase subunit Cox2 by Oxa1 and Yme1 in the absence of Cox18. Genetics. 182: 519-28. PMID 19307606 DOI: 10.1534/Genetics.109.101196 |
0.821 |
|
| 2009 |
Bonnefoy N, Fiumera HL, Dujardin G, Fox TD. Roles of Oxa1-related inner-membrane translocases in assembly of respiratory chain complexes. Biochimica Et Biophysica Acta. 1793: 60-70. PMID 18522806 DOI: 10.1016/j.bbamcr.2008.05.004 |
0.457 |
|
| 2008 |
Ding MG, Butler CA, Saracco SA, Fox TD, Godard F, di Rago JP, Trumpower BL. Introduction of cytochrome b mutations in Saccharomyces cerevisiae by a method that allows selection for both functional and non-functional cytochrome b proteins. Biochimica Et Biophysica Acta. 1777: 1147-56. PMID 18498758 DOI: 10.1016/J.Bbabio.2008.04.029 |
0.781 |
|
| 2007 |
Bonnefoy N, Fox TD. Directed alteration of Saccharomyces cerevisiae mitochondrial DNA by biolistic transformation and homologous recombination. Methods in Molecular Biology (Clifton, N.J.). 372: 153-66. PMID 18314724 DOI: 10.1007/978-1-59745-365-3_11 |
0.347 |
|
| 2007 |
Fiumera HL, Broadley SA, Fox TD. Translocation of mitochondrially synthesized Cox2 domains from the matrix to the intermembrane space. Molecular and Cellular Biology. 27: 4664-73. PMID 17452441 DOI: 10.1128/Mcb.01955-06 |
0.73 |
|
| 2007 |
Williams EH, Butler CA, Bonnefoy N, Fox TD. Translation initiation in Saccharomyces cerevisiae mitochondria: functional interactions among mitochondrial ribosomal protein Rsm28p, initiation factor 2, methionyl-tRNA-formyltransferase and novel protein Rmd9p. Genetics. 175: 1117-26. PMID 17194786 DOI: 10.1534/genetics.106.064576 |
0.459 |
|
| 2007 |
Zambrano A, Fontanesi F, Solans A, De Oliveira RL, Fox TD, Tzagoloff A, Barrientos A. Aberrant translation of cytochrome c oxidase subunit 1 mRNA species in the absence of Mss51p in the yeast Saccharomyces cerevisiae Molecular Biology of the Cell. 18: 523-535. PMID 17135289 DOI: 10.1091/Mbc.E06-09-0803 |
0.377 |
|
| 2005 |
Fiori A, Perez-Martinez X, Fox TD. Overexpression of the COX2 translational activator, Pet111p, prevents translation of COX1 mRNA and cytochrome c oxidase assembly in mitochondria of Saccharomyces cerevisiae. Molecular Microbiology. 56: 1689-704. PMID 15916616 DOI: 10.1111/j.1365-2958.2005.04658.x |
0.361 |
|
| 2005 |
Williams EH, Bsat N, Bonnefoy N, Butler CA, Fox TD. Alteration of a novel dispensable mitochondrial ribosomal small-subunit protein, Rsm28p, allows translation of defective COX2 mRNAs. Eukaryotic Cell. 4: 337-45. PMID 15701796 DOI: 10.1128/EC.4.2.337-345.2005 |
0.477 |
|
| 2004 |
Williams EH, Perez-Martinez X, Fox TD. MrpL36p, a highly diverged L31 ribosomal protein homolog with additional functional domains in Saccharomyces cerevisiae mitochondria. Genetics. 167: 65-75. PMID 15166137 DOI: 10.1534/genetics.167.1.65 |
0.416 |
|
| 2003 |
Demlow CM, Fox TD. Activity of mitochondrially synthesized reporter proteins is lower than that of imported proteins and is increased by lowering cAMP in glucose-grown Saccharomyces cerevisiae cells. Genetics. 165: 961-74. PMID 14668357 |
0.712 |
|
| 2003 |
Perez-Martinez X, Broadley SA, Fox TD. Mss51p promotes mitochondrial Cox1p synthesis and interacts with newly synthesized Cox1p. The Embo Journal. 22: 5951-61. PMID 14592991 DOI: 10.1093/Emboj/Cdg566 |
0.733 |
|
| 2003 |
Mireau H, Arnal N, Fox TD. Expression of Barstar as a selectable marker in yeast mitochondria Molecular Genetics and Genomics. 270: 1-8. PMID 12928865 DOI: 10.1007/s00438-003-0879-2 |
0.372 |
|
| 2003 |
Fiori A, Mason TL, Fox TD. Evidence that synthesis of the Saccharomyces cerevisiae mitochondrially encoded ribosomal protein Var1p may be membrane localized. Eukaryotic Cell. 2: 651-3. PMID 12796311 DOI: 10.1128/EC.2.3.651-653.2003 |
0.44 |
|
| 2003 |
Williams EH, Fox TD. Antagonistic signals within the COX2 mRNA coding sequence control its translation in Saccharomyces cerevisiae mitochondria. Rna (New York, N.Y.). 9: 419-31. PMID 12649494 DOI: 10.1261/rna.2182903 |
0.312 |
|
| 2003 |
Naithani S, Saracco SA, Butler CA, Fox TD. Interactions among COX1, COX2, and COX3 mRNA-specific translational activator proteins on the inner surface of the mitochondrial inner membrane of Saccharomyces cerevisiae. Molecular Biology of the Cell. 14: 324-33. PMID 12529447 DOI: 10.1091/Mbc.E02-08-0490 |
0.798 |
|
| 2002 |
Saracco SA, Fox TD. Cox18p is required for export of the mitochondrially encoded Saccharomyces cerevisiae Cox2p C-tail and interacts with Pnt1p and Mss2p in the inner membrane. Molecular Biology of the Cell. 13: 1122-31. PMID 11950926 DOI: 10.1091/Mbc.01-12-0580 |
0.819 |
|
| 2001 |
Broadley SA, Demlow CM, Fox TD. Peripheral mitochondrial inner membrane protein, Mss2p, required for export of the mitochondrially coded Cox2p C tail in Saccharomyces cerevisiae. Molecular and Cellular Biology. 21: 7663-72. PMID 11604502 DOI: 10.1128/Mcb.21.22.7663-7672.2001 |
0.712 |
|
| 2001 |
Bonnefoy N, Bsat N, Fox TD. Mitochondrial translation of Saccharomyces cerevisiae COX2 mRNA is controlled by the nucleotide sequence specifying the pre-Cox2p leader peptide. Molecular and Cellular Biology. 21: 2359-72. PMID 11259585 DOI: 10.1128/MCB.21.7.2359-2372.2001 |
0.315 |
|
| 2001 |
Green-Willms NS, Butler CA, Dunstan HM, Fox TD. Pet111p, an inner membrane-bound translational activator that limits expression of the Saccharomyces cerevisiae mitochondrial gene COX2. The Journal of Biological Chemistry. 276: 6392-7. PMID 11106667 DOI: 10.1074/jbc.M009856200 |
0.483 |
|
| 2000 |
Kolesnikova OA, Entelis NS, Mireau H, Fox TD, Martin RP, Tarassov IA. Suppression of mutations in mitochondrial DNA by tRNAs imported from the cytoplasm Science. 289: 1931-1933. PMID 10988073 DOI: 10.1126/science.289.5486.1931 |
0.372 |
|
| 2000 |
Souza RL, Green-Willms NS, Fox TD, Tzagoloff A, Nobrega FG. Cloning and characterization of COX18, a Saccharomyces cerevisiae PET gene required for the assembly of cytochrome oxidase Journal of Biological Chemistry. 275: 14898-14902. PMID 10809734 DOI: 10.1074/jbc.275.20.14898 |
0.478 |
|
| 2000 |
Mireau H, Cosset A, Maréchal-Drouard L, Fox TD, Small ID, Dietrich A. Expression of Arabidopsis thaliana mitochondrial alanyl-tRNA synthetase is not sufficient to trigger mitochondrial import of tRNA(Ala) in yeast Journal of Biological Chemistry. 275: 13291-13296. PMID 10788435 DOI: 10.1074/jbc.275.18.13291 |
0.383 |
|
| 2000 |
Bonnefoy N, Fox TD. In vivo analysis of mutated initiation codons in the mitochondrial COX2 gene of Saccharomyces cerevisiae fused to the reporter gene ARG8m reveals lack of downstream reinitiation. Molecular & General Genetics : Mgg. 262: 1036-46. PMID 10660064 |
0.411 |
|
| 2000 |
Sia EA, Butler CA, Dominska M, Greenwell P, Fox TD, Petes TD. Analysis of microsatellite mutations in the mitochondrial DNA of Saccharomyces cerevisiae. Proceedings of the National Academy of Sciences of the United States of America. 97: 250-5. PMID 10618404 DOI: 10.1073/Pnas.97.1.250 |
0.324 |
|
| 1999 |
He S, Fox TD. Mutations affecting a yeast mitochondrial inner membrane protein, Pnt1p, block export of a mitochondrially synthesized fusion protein from the matrix Molecular and Cellular Biology. 19: 6598-6607. PMID 10490599 |
0.515 |
|
| 1998 |
Sanchirico ME, Fox TD, Mason TL. Accumulation of mitochondrially synthesized Saccharomyces cerevisiae Cox2p and Cox3p depends on targeting information in untranslated portions of their mRNAs Embo Journal. 17: 5796-5804. PMID 9755179 DOI: 10.1093/emboj/17.19.5796 |
0.391 |
|
| 1998 |
Green-Willms NS, Fox TD, Costanzo MC. Functional interactions between yeast mitochondrial ribosomes and mRNA 5' untranslated leaders Molecular and Cellular Biology. 18: 1826-1834. PMID 9528754 |
0.42 |
|
| 1997 |
Kim SI, Stange-Thomann N, Martins O, Hong KW, Soll D, Fox TD. A nuclear genetic lesion affecting Saccharomyces cerevisiae mitochondrial translation is complemented by a homologous Bacillus gene Journal of Bacteriology. 179: 5625-5627. PMID 9287027 DOI: 10.1128/Jb.179.17.5625-5627.1997 |
0.428 |
|
| 1997 |
Dunstan HM, Green-Willms NS, Fox TD. In vivo analysis of Saccharomyces cerevisiae COX2 mRNA 5'-untranslated leader functions in mitochondrial translation initiation and translational activation Genetics. 147: 87-100. PMID 9286670 |
0.357 |
|
| 1997 |
He S, Fox TD. Membrane translocation of mitochondrially coded Cox2p: Distinct requirements for export of N and C termini and dependence on the conserved protein Oxa1p Molecular Biology of the Cell. 8: 1449-1460. PMID 9285818 |
0.514 |
|
| 1997 |
Wiesenberger G, Fox TD. Pet127p, a membrane-associated protein involved in stability and processing of Saccharomyces cerevisiae mitochondrial RNAs Molecular and Cellular Biology. 17: 2816-2824. PMID 9111353 |
0.443 |
|
| 1997 |
Torello AT, Overholtzer MH, Cameron VL, Bonnefoy N, Fox TD. Deletion of the leader peptide of the mitochondrially encoded precursor of Saccharomyces cerevisiae cytochrome c oxidase subunit II. Genetics. 145: 903-10. PMID 9093845 |
0.371 |
|
| 1996 |
Fox TD. Translational control of endogenous and recoded nuclear genes in yeast mitochondria: Regulation and membrane targeting Experientia. 52: 1130-1135. PMID 8988256 DOI: 10.1007/BF01952112 |
0.456 |
|
| 1996 |
Steele DF, Butler CA, Fox TD. Expression of a recoded nuclear gene inserted into yeast mitochondrial DNA is limited by mRNA-specific translational activation. Proceedings of the National Academy of Sciences of the United States of America. 93: 5253-7. PMID 8643562 DOI: 10.1073/pnas.93.11.5253 |
0.364 |
|
| 1995 |
Sanchirico M, Tzellas A, Fox TD, Conrad-Webb H, Periman PS, Mason TL. Relocation of the unusual VAR1 gene from the mitochondrion to the nucleus Biochemistry and Cell Biology = Biochimie Et Biologie Cellulaire. 73: 987-995. PMID 8722014 |
0.468 |
|
| 1995 |
Costanzo MC, Fox TD. A point mutation in the 5′-untranslated leader that affects translational activation of the mitochondrial COX 3 mRNA Current Genetics. 28: 60-66. PMID 8536314 DOI: 10.1007/BF00311882 |
0.337 |
|
| 1995 |
Wiesenberger G, Costanzo MC, Fox TD. Analysis of the Saccharomyces cerevisiae mitochondrial COX3 mRNA 5' untranslated leader: Translational activation and mRNA processing Molecular and Cellular Biology. 15: 3291-3300. PMID 7539105 |
0.338 |
|
| 1995 |
Bürgi T, Berke H, Wingbermühle D, Psiorz C, Noe R, Fox T, Knickmeier M, Berlekamp M, Fröhlich R, Erker G. Monitoring the electronic features of rigid C1-bridged Group 4 ansa-metallocenes by using the dynamic and structural properties of their s-cis-η4-butadiene complexes Journal of Organometallic Chemistry. 497: 149-159. DOI: 10.1016/0022-328X(95)00112-4 |
0.303 |
|
| 1994 |
Mulero JJ, Rosenthal JK, Fox TD. PET112, a Saccharomyces cerevisiae nuclear gene required to maintain rho+ mitochondrial DNA Current Genetics. 25: 299-304. PMID 8082172 DOI: 10.1007/BF00351481 |
0.333 |
|
| 1994 |
Folley LS, Fox TD. Reduced dosage of genes encoding ribosomal protein S18 suppresses a mitochondrial initiation codon mutation in Saccharomyces cerevisiae Genetics. 137: 369-379. PMID 8070651 |
0.435 |
|
| 1994 |
Mulero JJ, Fox TD. Reduced but accurate translation from a mutant AUA initiation codon in the mitochondrial COX2 mRNA of Saccharomyces cerevisiae Mgg Molecular & General Genetics. 242: 383-390. PMID 7510017 DOI: 10.1007/BF00281787 |
0.302 |
|
| 1993 |
Thorsness PE, Fox TD. Nuclear mutations in Saccharomyces cerevisiae that affect the escape of DNA from mitochondria to the nucleus Genetics. 134: 21-28. PMID 8514129 |
0.336 |
|
| 1993 |
Costanzo MC, Fox TD. Suppression of a Defect in the 5′ Untranslated Leader of Mitochondrial COX3 mRNA by a Mutation Affecting an mRNA-Specific Translational Activator Protein Molecular and Cellular Biology. 13: 4806-4813. PMID 8393138 DOI: 10.1128/mcb.13.8.4806-4813.1993 |
0.345 |
|
| 1993 |
McMullin TW, Fox TD. COX3 mRNA-specific translational activator proteins are associated with the inner mitochondrial membrane in Saccharomyces cerevisiae Journal of Biological Chemistry. 268: 11737-11741. PMID 8389363 |
0.334 |
|
| 1993 |
Thorsness PE, White KH, Fox TD. Inactivation of YME1, a member of the ftsH-SEC18-PAS1-CDC48 family of putative ATPase-encoding genes, causes increased escape of DNA from mitochondria in Saccharomyces cerevisiae Molecular and Cellular Biology. 13: 5418-5426. PMID 8355690 DOI: 10.1128/mcb.13.9.5418-5426.1993 |
0.385 |
|
| 1993 |
Nunnari J, Fox TD, Walter P. A mitochondrial protease with two catalytic subunits of nonoverlapping specificities Science. 262: 1997-2004. PMID 8266095 DOI: 10.1126/Science.8266095 |
0.412 |
|
| 1993 |
Mulero JJ, Fox TD. Alteration of the Saccharomyces cerevisiae COX2 mRNA 5′-untranslated leader by mitochondrial gene replacement and functional interaction with the translational activator protein PET111 Molecular Biology of the Cell. 4: 1327-1335. PMID 8167413 |
0.381 |
|
| 1993 |
Mulero JJ, Fox TD. PET111 acts in the 5'-leader of the Saccharomyces cerevisiae mitochondrial COX2 mRNA to promote its translation Genetics. 133: 509-516. PMID 7681022 |
0.301 |
|
| 1992 |
Haffter P, Fox TD. Suppression of carboxy-terminal truncations of the yeast mitochondrial mRNA-specific translational activator PET122 by mutations in two new genes, MRP17 and PET127 Mgg Molecular & General Genetics. 235: 64-73. PMID 1279374 DOI: 10.1007/BF00286182 |
0.402 |
|
| 1991 |
Haffter P, McMullin TW, Fox TD. Functional interactions among two yeast mitochondrial ribosomal proteins and an mRNA-specific translational activator Genetics. 127: 319-326. PMID 1848523 |
0.356 |
|
| 1991 |
Fox TD, Folley LS, Mulero JJ, McMullin TW, Thorsness PE, Hedin LO, Costanzo MC. Analysis and manipulation of yeast mitochondrial genes. Methods in Enzymology. 194: 149-65. PMID 1706458 DOI: 10.1016/0076-6879(91)94013-3 |
0.404 |
|
| 1991 |
Folley LS, Fox TD. Site-directed mutagenesis of a Saccharomyces cerevisiae mitochondrial translation initiation codon Genetics. 129: 659-668. PMID 1661254 |
0.324 |
|
| 1990 |
McMullin TW, Haffter P, Fox TD. A novel small-subunit ribosomal protein of yeast mitochondria that interacts functionally with an mRNA-specific translational activator Molecular and Cellular Biology. 10: 4590-4595. PMID 2167435 DOI: 10.1128/mcb.10.9.4590-4595.1990 |
0.408 |
|
| 1990 |
Haffter P, McMullin TW, Fox TD. A genetic link between an mRNA-specific translational activator and the translation system in yeast mitochondria Genetics. 125: 495-503. PMID 1696234 |
0.342 |
|
| 1989 |
Cameron VL, Fox TD, Poyton RO. Isolation and characterization of a yeast strain carrying a mutation in the mitochondrial promoter for COX2. The Journal of Biological Chemistry. 264: 13391-4. PMID 2547760 |
0.352 |
|
| 1989 |
Shen Z, Fox TD. Substitution of an invariant nucleotide at the base of the highly conserved '530-loop' of 15S rRNA causes suppression of yeast mitochondrial ochre mutations Nucleic Acids Research. 17: 4535-4539. PMID 2473436 |
0.324 |
|
| 1988 |
Fox TD, Costanzo MC, Strick CA, Marykwas DL, Seaver EC, Rosenthal JK. Translational regulation of mitochondrial gene expression by nuclear genes of Saccharomyces cerevisiae Philosophical Transactions of the Royal Society of London. Series B: Biological Sciences. 319: 97-105. PMID 2901766 DOI: 10.1098/Rstb.1988.0034 |
0.401 |
|
| 1988 |
Sweet MT, Lindstrom J, Fujita N, Jansen K, Min CK, Claudio T, Nelson N, Fox TD, Hess GP. Chapter 10 Expression of Acetylcholine Receptor Subunits in Saccharomyces cerevisiae (Yeast) Current Topics in Membranes and Transport. 33: 197-218. DOI: 10.1016/S0070-2161(08)60900-4 |
0.514 |
|
| 1987 |
Poutre CG, Fox TD. PET111, a Saccharomyces cerevisiae nuclear gene required for translation of the mitochondrial mRNA encoding cytochrome c oxidase subunit II Genetics. 115: 637-647. PMID 3034718 DOI: 10.1093/genetics/115.4.637 |
0.377 |
|
| 1987 |
Rödel G, Fox TD. The yeast nuclear gene CBS1 is required for translation of mitochondrial mRNAs bearing the cob 5′ untranslated leader Mgg Molecular & General Genetics. 206: 45-50. PMID 3033440 DOI: 10.1007/BF00326534 |
0.361 |
|
| 1986 |
Fujita N, Sweet MT, Fox TD, Nelson N, Claudio T, Lindstrom JM, Hess GP. Expression of cDNAs for acetylcholine receptor subunits in the yeast cell plasma membrane. Biochemical Society Symposium. 52: 41-56. PMID 3579969 |
0.57 |
|
| 1986 |
Fujita N, Nelson N, Fox TD, Claudio T, Lindstrom J, Riezman H, Hess GP. Biosynthesis of the Torpedo californica acetylcholine receptor alpha subunit in yeast. Science (New York, N.Y.). 231: 1284-7. PMID 3511531 DOI: 10.1126/Science.3511531 |
0.6 |
|
| 1986 |
Costanzo MC, Fox TD. Product of Saccharomyces cerevisiae nuclear gene PET494 activates translation of a specific mitochondrial mRNA Molecular and Cellular Biology. 6: 3694-3703. PMID 3099165 DOI: 10.1128/mcb.6.11.3694-3703.1986 |
0.352 |
|
| 1986 |
Costanzo MC, Seaver EC, Fox TD. At least two nuclear gene products are specifically required for translation of a single yeast mitochondrial mRNA Embo Journal. 5: 3637-3641. PMID 3030734 DOI: 10.1002/J.1460-2075.1986.Tb04693.X |
0.349 |
|
| 1986 |
Bailey-Serres J, Hanson DK, Fox TD, Leaver CJ. Mitochondrial genome rearrangement leads to extension and relocation of the cytochrome c oxidase subunit I gene in sorghum Cell. 47: 567-576. PMID 3022938 DOI: 10.1016/0092-8674(86)90621-5 |
0.34 |
|
| 1986 |
Fox TD. Nuclear gene products required for translation of specific mitochondrially coded mRNAs in yeast Trends in Genetics. 2: 97-100. DOI: 10.1016/0168-9525(86)90192-7 |
0.323 |
|
| 1984 |
Müller PP, Reif MK, Zonghou S, Sengstag C, Mason TL, Fox TD. A nuclear mutation that post-transcriptionally blocks accumulation of a yeast mitochondrial gene product can be suppressed by a mitochondrial gene rearrangement Journal of Molecular Biology. 175: 431-452. PMID 6330366 DOI: 10.1016/0022-2836(84)90178-5 |
0.414 |
|
| 1982 |
Fox T. Do mitochondria share enzymes with the rest of the cell? Nature. 298: 323. PMID 7088180 DOI: 10.1038/298323A0 |
0.318 |
|
| 1982 |
Fox TD, Staempfli S. Suppressor of yeast mitochondrial ochre mutations that maps in or near the 15S ribosomal RNA gene of mtDNA. Proceedings of the National Academy of Sciences of the United States of America. 79: 1583-7. PMID 6280192 DOI: 10.1073/pnas.79.5.1583 |
0.349 |
|
| 1982 |
Fox TD, Leaver CJ. The Zea mays mitochondrial gene coding cytochrome oxidase subunit II has an intervening sequence and does not contain TGA codons. Cell. 26: 315-23. PMID 6276012 DOI: 10.1016/0092-8674(81)90200-2 |
0.307 |
|
| 1982 |
Fox TD. Mitochondrial gene expression at Castro, Italy Current Genetics. 6: 1-3. DOI: 10.1007/BF00397632 |
0.305 |
|
| 1981 |
Fox TD. More surprises from mitochondria. Nature. 292: 109-10. PMID 7242679 DOI: 10.1038/292109a0 |
0.331 |
|
| 1981 |
Fox TD, Weiss-Brummer B. Leaky +1 and -1 frameshift mutations at the same site in a yeast mitochondrial gene. Nature. 288: 60-3. PMID 6253818 DOI: 10.1038/288060a0 |
0.352 |
|
| 1980 |
Fox TD. Five TGA "stop" codons occur within the translated sequence of the yeast mitochondrial gene for cytochrome c oxidase subunit II. Proceedings of the National Academy of Sciences of the United States of America. 76: 6534-8. PMID 230513 DOI: 10.1073/pnas.76.12.6534 |
0.368 |
|
| 1979 |
Fox TD. Genetic and physical analysis of the mitochondrial gene for subunit II of yeast cytochrome c oxidase. Journal of Molecular Biology. 130: 63-82. PMID 224191 DOI: 10.1016/0022-2836(79)90552-7 |
0.342 |
|
| 1976 |
Fox TD, Losick R, Pero J. Regulatory gene 28 of bacteriophage SPO1 codes for a phage-induced subunit of RNA polymerase Journal of Molecular Biology. 101: 427-433. DOI: 10.1016/0022-2836(76)90157-1 |
0.462 |
|
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