Basic Information
| Name | GTP-binding protein YPT11 (Rab GTPase YPT11) |
| Uniprot ID | P48559 |
| Systematic gene name | YNL304W |
| Standard gene name | YPT11 |
| Gene names | YPT11 YNL304W N0410 |
| Description from SGD | YNL304W YPT11 SGDID:S000005248, Chr XIV from 60297-61550, Genome Release 64-3-1, Verified ORF, "Rab GTPase; Myo2p-binding protein implicated in mother-to-bud transport of cortical endoplasmic reticulum (ER), late Golgi, and mitochondria during cell division; function is regulated at multiple levels; abundance of active Ypt11p forms is controlled by phosphorylation status and degradation; normally a low-abundance protein whose ER localization is only detected when protein is highly over expressed" |
| Protein length | 417 |
| Download | sequence (fasta, from Uniprot), modifications (csv format) |
| Database links | Uniprot, SGD, TheCellVision.org, FungiDB |
Sequence
MSQRKRYSLN VVTSPSIPSP TPSAPIRTNE SNWEAASPAS AASSFLPNVH
HGGTVLNPGL GIMRSPSLNK SGAFGRSGSS GSSTVIEPSN IKLLLIGDAN
VGKTAMILSY CRELLTRAEM SRSARLRHQQ QQQHKDLGLK KTVVNHRLSM
KEKRKRYSSN DFEKEFKDIN HFADETSDFG NPNIGDDNNH EMADPNEIVI
ETRSTIGIDI KTNLVNIDNR FFNVILWDTA GQERYQNAII PSLYKKTNAV
ILTYDITNAK SFQSCMERWI VQALENFSSQ DLLKARFFLV GNKIDLYKER
QVTHYDVVQM VQEMQLKHGI KISGNFEVSC KWVNVVERTM NMIILDLVEN
GCFENNDPCV SITTSDDVQG HEQEFHDTVE EPFNFTRQRQ HQLEKNNTVD
ITKPNDDIAN NQSICCV
HGGTVLNPGL GIMRSPSLNK SGAFGRSGSS GSSTVIEPSN IKLLLIGDAN
VGKTAMILSY CRELLTRAEM SRSARLRHQQ QQQHKDLGLK KTVVNHRLSM
KEKRKRYSSN DFEKEFKDIN HFADETSDFG NPNIGDDNNH EMADPNEIVI
ETRSTIGIDI KTNLVNIDNR FFNVILWDTA GQERYQNAII PSLYKKTNAV
ILTYDITNAK SFQSCMERWI VQALENFSSQ DLLKARFFLV GNKIDLYKER
QVTHYDVVQM VQEMQLKHGI KISGNFEVSC KWVNVVERTM NMIILDLVEN
GCFENNDPCV SITTSDDVQG HEQEFHDTVE EPFNFTRQRQ HQLEKNNTVD
ITKPNDDIAN NQSICCV
Legend
- 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
| [7, 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) |
| [8, 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) |
| [13, 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) |
| [19, 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) |
| [19, 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) |
| [19, 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) |
| [19, Phos] | Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications) |
| [67, 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) |
| [67, 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) |
| [67, 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) |
| [67, 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) |
| [67, Phos] | Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications) |
| [71, 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) |
| [71, 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) |
| [71, 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) |
| [71, 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) |
| [71, 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] | 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] | Zhou, X., Li, W., Liu, Y., Amon, A. (2021. Cross-compartment signal propagation in the mitotic exit network. Elife 10:e63645. (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] | 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) |
| [79, 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) |
| [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] | Zhou, X., Li, W., Liu, Y., Amon, A. (2021. Cross-compartment signal propagation in the mitotic exit network. Elife 10:e63645. (Publication) (All modifications) |
| [79, 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) |
| [79, 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) |
| [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] | 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) |
| [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] | Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications) |
| [82, 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) |
| [82, 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) |
| [82, 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) |
| [82, 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) |
| [82, Phos] | Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications) |
| [83, 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) |
| [83, 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] | 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] | Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications) |
| [157, 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) |
| [158, 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) |
| [158, 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) |
| [158, 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) |
| [158, 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) |
| [158, 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) |
| [158, 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) |
| [158, 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) |
| [158, 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) |
| [158, Phos] | Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications) |
| [159, 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) |
| [159, 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) |
| [159, 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) |
| [159, Phos] | Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications) |
| [204, 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) |