Basic Information
| Name | Uncharacterized protein YOR093C |
| Uniprot ID | Q12275 |
| Systematic gene name | YOR093C |
| Standard gene name | CMR2 |
| Gene names | CMR2 YOR093C YOR3170c |
| Description from SGD | YOR093C CMR2 SGDID:S000005619, Chr XV from 502452-497506, Genome Release 64-3-1, reverse complement, Uncharacterized ORF, "Putative protein of unknown function; deletion causes sensitivity to unfolded protein response-inducing agents" |
| Protein length | 1648 |
| Download | sequence (fasta, from Uniprot), modifications (csv format) |
| Database links | Uniprot, SGD, TheCellVision.org, FungiDB |
Sequence
MDFSIPPTLP LDLQSRLNEL IQDYKDENLT RKGYETKRKQ LLDKFEISQM
RPYTPLRSPN SRKSKHLHRR NTSLASSITS LPNSIDRRHS IYRVTTINST
SANNTPRRRS KRYTASLQSS LPGSSDENGS VKDAVYNPMI PLLPRHTGAE
NTSSGDSAMT DSLPLILRGR FEHYDGQTAM ISINSKGKET FITWDKLYLK
AERVAHELNK SHLYKMDKIL LWYNKNDVIE FTIALLGCFI SGMAAVPVSF
ETYSLREILE IIKVTNSKFV LISNACHRQL DNLYSSSNHS KVKLVKNDVF
QQIKFVKTDD LGTYTKAKKT SPTFDIPNIS YIEFTRTPLG RLSGVVMKHN
ILINQFETMT KILNSRSMPH WKQKSQSIRK PFHKKIMATN SRFVILNSLD
PTRSTGLIMG VLFNLFTGNL MISIDSSILQ RPGGYENIID KFRADILLND
QLQLKQVVIN YLENPESAFS KKHKIDFSCI KSCLTSCTTI DTDVSEMVVH
KWLKNLGCID APFCYSPMLT LLDFGGIFIS IRDQLGNLEN FPIHNSKLRL
QNELFINREK LKLNEVECSI TAMINSSSSF KDYLKLETFG FPIPDITLCV
VNPDTNTLVQ DLTVGEIWIS SNHITDEFYQ MDKVNEFVFK AKLNYSEMFS
WAKYEMPTNE KSQAVTEQLD TILNICPANT YFMRTKLMGF VHNGKIYVLS
LIEDMFLQNR LIRLPNWAHT SNLLYAKKGN QSAQPKGNTG AESTKAIDIS
SLSGETSSGY KRVVESHYLQ QITETVVRTV NTVFEVAAFE LQHHKEEHFL
VMVVESSLAK TEEESKNGET TDTTLMKFAE TQRNKLETKM NDLTDQIFRI
LWIFHKIQPM CILVVPRDTL PRRYCSLELA NSTVEKKFLN NDLSAQFVKF
QFDNVILDFL PHSAYYNESI LSEHLSKLRK MALQEEYAMI EPAYRNGGPV
KPKLALQCSG VDYRDESVDT RSHTKLTDFK SILEILEWRI SNYGNETAFS
DGTNTNLVNS SASNDNNVHK KVSWASFGKI VAGFLKKIVG SKIPLKHGDP
IIIMCENSVE YVAMIMACLY CNLLVIPLPS VKESVIEEDL KGLVNIIQSY
KVKRVFVDAK LHSLLNDNNV VNKCFKKYKS LIPKITVFSK VKTKNALTVS
MFKNVLKQKF GAKPGTRIGM TPCVVWVNTE YDVTSNIHVT MTHSSLLNAS
KIVKETLQLR NNSPLFSICS HTSGLGFMFS CLLGIYTGAS TCLFSLTDVL
TDPKEFLIGL QNLNVKDLYL KLETLYALLD RASSLIEGFK NKKENINSAK
NNTSGSLRED VFKGVRNIMI PFPNRPRIYT IENILKRYST ISLSCTQISY
VYQHHFNPLI SLRSYLDIPP VDLYLDPFSL REGIIREVNP NDVSAGNYIK
IQDSGVVPVC TDVSVVNPET LLPCVDGEFG EIWCCSEANA FDYFVCNSSK
NKLYKDPFIT EQFKSKMKSE VNNTLSYLRT GDLGFIKNVS CTNSQGEVVN
LNLLFVLGSI HESIEILGLT HFVSDLERTV KDVHSDIGSC LIAKAGGLLV
CLIRCKERHN PILGNLTTLI VSELLNKHGV ILDLCTFVRT KGISPKNSSM
IMEVWAKNRA SIMQAWFDQK IQIEAQFGIN YGENISIYLL SDYEKDNI
RPYTPLRSPN SRKSKHLHRR NTSLASSITS LPNSIDRRHS IYRVTTINST
SANNTPRRRS KRYTASLQSS LPGSSDENGS VKDAVYNPMI PLLPRHTGAE
NTSSGDSAMT DSLPLILRGR FEHYDGQTAM ISINSKGKET FITWDKLYLK
AERVAHELNK SHLYKMDKIL LWYNKNDVIE FTIALLGCFI SGMAAVPVSF
ETYSLREILE IIKVTNSKFV LISNACHRQL DNLYSSSNHS KVKLVKNDVF
QQIKFVKTDD LGTYTKAKKT SPTFDIPNIS YIEFTRTPLG RLSGVVMKHN
ILINQFETMT KILNSRSMPH WKQKSQSIRK PFHKKIMATN SRFVILNSLD
PTRSTGLIMG VLFNLFTGNL MISIDSSILQ RPGGYENIID KFRADILLND
QLQLKQVVIN YLENPESAFS KKHKIDFSCI KSCLTSCTTI DTDVSEMVVH
KWLKNLGCID APFCYSPMLT LLDFGGIFIS IRDQLGNLEN FPIHNSKLRL
QNELFINREK LKLNEVECSI TAMINSSSSF KDYLKLETFG FPIPDITLCV
VNPDTNTLVQ DLTVGEIWIS SNHITDEFYQ MDKVNEFVFK AKLNYSEMFS
WAKYEMPTNE KSQAVTEQLD TILNICPANT YFMRTKLMGF VHNGKIYVLS
LIEDMFLQNR LIRLPNWAHT SNLLYAKKGN QSAQPKGNTG AESTKAIDIS
SLSGETSSGY KRVVESHYLQ QITETVVRTV NTVFEVAAFE LQHHKEEHFL
VMVVESSLAK TEEESKNGET TDTTLMKFAE TQRNKLETKM NDLTDQIFRI
LWIFHKIQPM CILVVPRDTL PRRYCSLELA NSTVEKKFLN NDLSAQFVKF
QFDNVILDFL PHSAYYNESI LSEHLSKLRK MALQEEYAMI EPAYRNGGPV
KPKLALQCSG VDYRDESVDT RSHTKLTDFK SILEILEWRI SNYGNETAFS
DGTNTNLVNS SASNDNNVHK KVSWASFGKI VAGFLKKIVG SKIPLKHGDP
IIIMCENSVE YVAMIMACLY CNLLVIPLPS VKESVIEEDL KGLVNIIQSY
KVKRVFVDAK LHSLLNDNNV VNKCFKKYKS LIPKITVFSK VKTKNALTVS
MFKNVLKQKF GAKPGTRIGM TPCVVWVNTE YDVTSNIHVT MTHSSLLNAS
KIVKETLQLR NNSPLFSICS HTSGLGFMFS CLLGIYTGAS TCLFSLTDVL
TDPKEFLIGL QNLNVKDLYL KLETLYALLD RASSLIEGFK NKKENINSAK
NNTSGSLRED VFKGVRNIMI PFPNRPRIYT IENILKRYST ISLSCTQISY
VYQHHFNPLI SLRSYLDIPP VDLYLDPFSL REGIIREVNP NDVSAGNYIK
IQDSGVVPVC TDVSVVNPET LLPCVDGEFG EIWCCSEANA FDYFVCNSSK
NKLYKDPFIT EQFKSKMKSE VNNTLSYLRT GDLGFIKNVS CTNSQGEVVN
LNLLFVLGSI HESIEILGLT HFVSDLERTV KDVHSDIGSC LIAKAGGLLV
CLIRCKERHN PILGNLTTLI VSELLNKHGV ILDLCTFVRT KGISPKNSSM
IMEVWAKNRA SIMQAWFDQK IQIEAQFGIN YGENISIYLL SDYEKDNI
Legend
- X Ubiquitination
- X Phoshorylation
Structure
Structure visualized by GLmol written by biochem_fan. The structure was downloaded from the AlphaFold Protein Structure Database.
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References
| [25, Ubi] | Swaney, D.L., Beltrao, P., Starita, L., Guo, A., Rush, J., Fields, S., Krogan, N.J., Villén, J. (2013). Global analysis of phosphorylation and ubiquitylation cross-talk in protein degradation. Nature Methods 10(7): 676-682. (Publication) (All modifications) |
| [48, Phos] | Lanz MC, Yugandhar K, Gupta S, Sanford EJ, Faça VM, Vega S, Joiner AMN, Fromme JC, Yu H, Smolka MB (2021). In-depth and 3-dimensional exploration of the budding yeast phosphoproteome. EMBO Reports, e51121. (Publication) (All modifications) |
| [58, Phos] | Lanz MC, Yugandhar K, Gupta S, Sanford EJ, Faça VM, Vega S, Joiner AMN, Fromme JC, Yu H, Smolka MB (2021). In-depth and 3-dimensional exploration of the budding yeast phosphoproteome. EMBO Reports, e51121. (Publication) (All modifications) |
| [58, Phos] | Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications) |
| [58, Phos] | Zhou, X., Li, W., Liu, Y., Amon, A. (2021. Cross-compartment signal propagation in the mitotic exit network. Elife 10:e63645. (Publication) (All modifications) |
| [58, Phos] | MacGilvray, M.E., Shishkova, E., Place, M., Wagner, E.R., Coon, J.J., Gasch, A.P. (2020). Phosphoproteome response to dithiothreitol reveals unique versus shared features of Saccharomyces cerevisiae stress responses. Journal of Proteome Research 19(8): 3405-3417. (Publication) (All modifications) |
| [58, Phos] | Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications) |
| [72, Phos] | Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications) |
| [72, Phos] | Albuquerque, C.P., Smolka, M.B., Payne, S.H., Bafna, V., Eng, J., Zhou, H. (2008). A multidimensional chromatography technology for in-depth phosphoproteome analysis. Molecular and Cellular Proteomics 7(7):1389-1396. (Publication) (All modifications) |
| [72, Phos] | Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications) |
| [73, Phos] | Lanz MC, Yugandhar K, Gupta S, Sanford EJ, Faça VM, Vega S, Joiner AMN, Fromme JC, Yu H, Smolka MB (2021). In-depth and 3-dimensional exploration of the budding yeast phosphoproteome. EMBO Reports, e51121. (Publication) (All modifications) |
| [73, Phos] | Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications) |
| [73, Phos] | Albuquerque, C.P., Smolka, M.B., Payne, S.H., Bafna, V., Eng, J., Zhou, H. (2008). A multidimensional chromatography technology for in-depth phosphoproteome analysis. Molecular and Cellular Proteomics 7(7):1389-1396. (Publication) (All modifications) |
| [73, Phos] | Swaney, D.L., Beltrao, P., Starita, L., Guo, A., Rush, J., Fields, S., Krogan, N.J., Villén, J. (2013). Global analysis of phosphorylation and ubiquitylation cross-talk in protein degradation. Nature Methods 10(7): 676-682. (Publication) (All modifications) |
| [73, Phos] | Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications) |
| [77, Phos] | Lanz MC, Yugandhar K, Gupta S, Sanford EJ, Faça VM, Vega S, Joiner AMN, Fromme JC, Yu H, Smolka MB (2021). In-depth and 3-dimensional exploration of the budding yeast phosphoproteome. EMBO Reports, e51121. (Publication) (All modifications) |
| [77, Phos] | Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications) |
| [77, Phos] | Albuquerque, C.P., Smolka, M.B., Payne, S.H., Bafna, V., Eng, J., Zhou, H. (2008). A multidimensional chromatography technology for in-depth phosphoproteome analysis. Molecular and Cellular Proteomics 7(7):1389-1396. (Publication) (All modifications) |
| [77, Phos] | Swaney, D.L., Beltrao, P., Starita, L., Guo, A., Rush, J., Fields, S., Krogan, N.J., Villén, J. (2013). Global analysis of phosphorylation and ubiquitylation cross-talk in protein degradation. Nature Methods 10(7): 676-682. (Publication) (All modifications) |
| [77, Phos] | Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications) |
| [79, Phos] | Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications) |
| [79, Phos] | Swaney, D.L., Beltrao, P., Starita, L., Guo, A., Rush, J., Fields, S., Krogan, N.J., Villén, J. (2013). Global analysis of phosphorylation and ubiquitylation cross-talk in protein degradation. Nature Methods 10(7): 676-682. (Publication) (All modifications) |
| [79, Phos] | Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications) |
| [80, Phos] | Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications) |
| [80, Phos] | Holt, L.J., Tuch, B.B., Villén, J., Johnson, A.D., Gygi, S.P., Morgan, D.O. (2009). Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. Science 325(5948): 1682-1686. (Publication) (All modifications) |
| [80, Phos] | Swaney, D.L., Beltrao, P., Starita, L., Guo, A., Rush, J., Fields, S., Krogan, N.J., Villén, J. (2013). Global analysis of phosphorylation and ubiquitylation cross-talk in protein degradation. Nature Methods 10(7): 676-682. (Publication) (All modifications) |
| [80, Phos] | Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications) |
| [84, Phos] | Lanz MC, Yugandhar K, Gupta S, Sanford EJ, Faça VM, Vega S, Joiner AMN, Fromme JC, Yu H, Smolka MB (2021). In-depth and 3-dimensional exploration of the budding yeast phosphoproteome. EMBO Reports, e51121. (Publication) (All modifications) |
| [84, Phos] | Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications) |
| [84, Phos] | Holt, L.J., Tuch, B.B., Villén, J., Johnson, A.D., Gygi, S.P., Morgan, D.O. (2009). Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. Science 325(5948): 1682-1686. (Publication) (All modifications) |
| [84, Phos] | Swaney, D.L., Beltrao, P., Starita, L., Guo, A., Rush, J., Fields, S., Krogan, N.J., Villén, J. (2013). Global analysis of phosphorylation and ubiquitylation cross-talk in protein degradation. Nature Methods 10(7): 676-682. (Publication) (All modifications) |
| [84, Phos] | Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications) |
| [90, Phos] | MacGilvray, M.E., Shishkova, E., Place, M., Wagner, E.R., Coon, J.J., Gasch, A.P. (2020). Phosphoproteome response to dithiothreitol reveals unique versus shared features of Saccharomyces cerevisiae stress responses. Journal of Proteome Research 19(8): 3405-3417. (Publication) (All modifications) |
| [95, Phos] | Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications) |
| [95, Phos] | Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications) |
| [96, Phos] | Vlastaridis P, Kyriakidou P, Chaliotis A, et al (2017) Estimating the total number of phosphoproteins and phosphorylation sites in eukaryotic proteomes. GigaScience 6:1–11. (Publication) (All modifications) |
| [96, Phos] | Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications) |
| [96, Phos] | Zhou, X., Li, W., Liu, Y., Amon, A. (2021. Cross-compartment signal propagation in the mitotic exit network. Elife 10:e63645. (Publication) (All modifications) |
| [96, Phos] | Swaney, D.L., Beltrao, P., Starita, L., Guo, A., Rush, J., Fields, S., Krogan, N.J., Villén, J. (2013). Global analysis of phosphorylation and ubiquitylation cross-talk in protein degradation. Nature Methods 10(7): 676-682. (Publication) (All modifications) |
| [96, Phos] | Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications) |
| [99, Phos] | Vlastaridis P, Kyriakidou P, Chaliotis A, et al (2017) Estimating the total number of phosphoproteins and phosphorylation sites in eukaryotic proteomes. GigaScience 6:1–11. (Publication) (All modifications) |
| [99, Phos] | Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications) |
| [99, Phos] | Zhou, X., Li, W., Liu, Y., Amon, A. (2021. Cross-compartment signal propagation in the mitotic exit network. Elife 10:e63645. (Publication) (All modifications) |
| [99, Phos] | MacGilvray, M.E., Shishkova, E., Place, M., Wagner, E.R., Coon, J.J., Gasch, A.P. (2020). Phosphoproteome response to dithiothreitol reveals unique versus shared features of Saccharomyces cerevisiae stress responses. Journal of Proteome Research 19(8): 3405-3417. (Publication) (All modifications) |
| [99, Phos] | Holt, L.J., Tuch, B.B., Villén, J., Johnson, A.D., Gygi, S.P., Morgan, D.O. (2009). Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. Science 325(5948): 1682-1686. (Publication) (All modifications) |
| [99, Phos] | Swaney, D.L., Beltrao, P., Starita, L., Guo, A., Rush, J., Fields, S., Krogan, N.J., Villén, J. (2013). Global analysis of phosphorylation and ubiquitylation cross-talk in protein degradation. Nature Methods 10(7): 676-682. (Publication) (All modifications) |
| [99, Phos] | Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications) |
| [100, Phos] | Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications) |
| [100, Phos] | Zhou, X., Li, W., Liu, Y., Amon, A. (2021. Cross-compartment signal propagation in the mitotic exit network. Elife 10:e63645. (Publication) (All modifications) |
| [100, Phos] | Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications) |
| [101, Phos] | Lanz MC, Yugandhar K, Gupta S, Sanford EJ, Faça VM, Vega S, Joiner AMN, Fromme JC, Yu H, Smolka MB (2021). In-depth and 3-dimensional exploration of the budding yeast phosphoproteome. EMBO Reports, e51121. (Publication) (All modifications) |
| [101, Phos] | Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications) |
| [101, Phos] | Zhou, X., Li, W., Liu, Y., Amon, A. (2021. Cross-compartment signal propagation in the mitotic exit network. Elife 10:e63645. (Publication) (All modifications) |
| [101, Phos] | Swaney, D.L., Beltrao, P., Starita, L., Guo, A., Rush, J., Fields, S., Krogan, N.J., Villén, J. (2013). Global analysis of phosphorylation and ubiquitylation cross-talk in protein degradation. Nature Methods 10(7): 676-682. (Publication) (All modifications) |
| [101, Phos] | Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications) |
| [105, Phos] | Lanz MC, Yugandhar K, Gupta S, Sanford EJ, Faça VM, Vega S, Joiner AMN, Fromme JC, Yu H, Smolka MB (2021). In-depth and 3-dimensional exploration of the budding yeast phosphoproteome. EMBO Reports, e51121. (Publication) (All modifications) |
| [105, Phos] | Vlastaridis P, Kyriakidou P, Chaliotis A, et al (2017) Estimating the total number of phosphoproteins and phosphorylation sites in eukaryotic proteomes. GigaScience 6:1–11. (Publication) (All modifications) |
| [105, Phos] | Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications) |
| [105, Phos] | Zhou, X., Li, W., Liu, Y., Amon, A. (2021. Cross-compartment signal propagation in the mitotic exit network. Elife 10:e63645. (Publication) (All modifications) |
| [105, Phos] | MacGilvray, M.E., Shishkova, E., Place, M., Wagner, E.R., Coon, J.J., Gasch, A.P. (2020). Phosphoproteome response to dithiothreitol reveals unique versus shared features of Saccharomyces cerevisiae stress responses. Journal of Proteome Research 19(8): 3405-3417. (Publication) (All modifications) |
| [105, Phos] | Albuquerque, C.P., Smolka, M.B., Payne, S.H., Bafna, V., Eng, J., Zhou, H. (2008). A multidimensional chromatography technology for in-depth phosphoproteome analysis. Molecular and Cellular Proteomics 7(7):1389-1396. (Publication) (All modifications) |
| [105, Phos] | Swaney, D.L., Beltrao, P., Starita, L., Guo, A., Rush, J., Fields, S., Krogan, N.J., Villén, J. (2013). Global analysis of phosphorylation and ubiquitylation cross-talk in protein degradation. Nature Methods 10(7): 676-682. (Publication) (All modifications) |
| [105, Phos] | Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications) |
| [113, Phos] | Swaney, D.L., Beltrao, P., Starita, L., Guo, A., Rush, J., Fields, S., Krogan, N.J., Villén, J. (2013). Global analysis of phosphorylation and ubiquitylation cross-talk in protein degradation. Nature Methods 10(7): 676-682. (Publication) (All modifications) |
| [116, Phos] | Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications) |
| [116, Phos] | Zhou, X., Li, W., Liu, Y., Amon, A. (2021. Cross-compartment signal propagation in the mitotic exit network. Elife 10:e63645. (Publication) (All modifications) |
| [116, Phos] | Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications) |
| [119, Phos] | Lanz MC, Yugandhar K, Gupta S, Sanford EJ, Faça VM, Vega S, Joiner AMN, Fromme JC, Yu H, Smolka MB (2021). In-depth and 3-dimensional exploration of the budding yeast phosphoproteome. EMBO Reports, e51121. (Publication) (All modifications) |
| [119, Phos] | Vlastaridis P, Kyriakidou P, Chaliotis A, et al (2017) Estimating the total number of phosphoproteins and phosphorylation sites in eukaryotic proteomes. GigaScience 6:1–11. (Publication) (All modifications) |
| [119, Phos] | Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications) |
| [119, Phos] | Zhou, X., Li, W., Liu, Y., Amon, A. (2021. Cross-compartment signal propagation in the mitotic exit network. Elife 10:e63645. (Publication) (All modifications) |
| [119, Phos] | Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications) |
| [120, Phos] | Lanz MC, Yugandhar K, Gupta S, Sanford EJ, Faça VM, Vega S, Joiner AMN, Fromme JC, Yu H, Smolka MB (2021). In-depth and 3-dimensional exploration of the budding yeast phosphoproteome. EMBO Reports, e51121. (Publication) (All modifications) |
| [120, Phos] | Vlastaridis P, Kyriakidou P, Chaliotis A, et al (2017) Estimating the total number of phosphoproteins and phosphorylation sites in eukaryotic proteomes. GigaScience 6:1–11. (Publication) (All modifications) |
| [120, Phos] | Studer RA, Rodriguez-Mias RA, Haas KM, et al (2016) Evolution of protein phosphorylation across 18 fungal species. Science 354:229–232. (Publication) (All modifications) |
| [120, Phos] | Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications) |
| [120, Phos] | Zhou, X., Li, W., Liu, Y., Amon, A. (2021. Cross-compartment signal propagation in the mitotic exit network. Elife 10:e63645. (Publication) (All modifications) |
| [120, Phos] | Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications) |
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