P38212

Name	Protein RCR1 (Resistance to Congo red protein 1)
Uniprot ID	P38212
Systematic gene name	YBR005W
Standard gene name	RCR1
Gene names	RCR1 YBR005W YBR0111
Description from SGD	YBR005W RCR1 SGDID:S000000209, Chr II from 245906-246547, Genome Release 64-3-1, Verified ORF, "Plasma membrane (PM) ubiquitin ligase-substrate adaptor; involved in cell wall chitin deposition; ubiquitinates and down-regulates chitin synthase Chs3p abundance at PM via calcineurin/Crz1 signaling pathway which regulates RCR1 expression; delivered to PM by exomer complex using novel PM sorting motif; RCR1 has a paralog, RCR2, that arose from the whole genome duplication"
Protein length	213
Download	sequence (fasta, from Uniprot), modifications (csv format)
Database links	Uniprot, SGD, TheCellVision.org, FungiDB

MGLISYENEA INEVKKADNH HVSKFVTSYY GPSSSSWQSG IWILFVLFVA
AVILIILFTF VANRRRRRMG RAPIRGTAWL TPPSYRQSQQ QYTGTVQQRT
DDYVPEYTET ANEHDLGYYD QRGEFHPNDK AAYVAPPPLV QECSSESVNS
LERPPAAVVH QANSLDTDYG LTRPSNGRVP AVSDTVEQLE RLPGGTTTQE
INPPERAKVN ARS

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[88, 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)
[88, 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)
[92, 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)
[93, 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)
[93, 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)
[93, 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)
[93, 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)
[164, 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)
[164, 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)
[164, 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)
[164, Phos]	Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications)
[185, 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)