NP_000994.1
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NCBI GenBank Nucleotide #
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UniProt Primary Accession #
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UniProt Secondary Accession #
UniProt Related Accession #
NCBI Official Full Name
60S acidic ribosomal protein P1 isoform 1
NCBI Official Synonym Full Names
ribosomal protein, large, P1
NCBI Protein Information
60S acidic ribosomal protein P1
UniProt Protein Name
60S acidic ribosomal protein P1
UniProt Synonym Gene Names
UniProt Entry Name
RLA1_HUMAN
NCBI Summary for RPLP1
Ribosomes, the organelles that catalyze protein synthesis, consist of a small 40S subunit and a large 60S subunit. Together these subunits are composed of 4 RNA species and approximately 80 structurally distinct proteins. This gene encodes a ribosomal phosphoprotein that is a component of the 60S subunit. The protein, which is a functional equivalent of the E. coli L7/L12 ribosomal protein, belongs to the L12P family of ribosomal proteins. It plays an important role in the elongation step of protein synthesis. Unlike most ribosomal proteins, which are basic, the encoded protein is acidic. Its C-terminal end is nearly identical to the C-terminal ends of the ribosomal phosphoproteins P0 and P2. The P1 protein can interact with P0 and P2 to form a pentameric complex consisting of P1 and P2 dimers, and a P0 monomer. The protein is located in the cytoplasm. Two alternatively spliced transcript variants that encode different proteins have been observed. As is typical for genes encoding ribosomal proteins, there are multiple processed pseudogenes of this gene dispersed through the genome. [provided by RefSeq, Jul 2008]
UniProt Comments for RPLP1
RPLP1: Plays an important role in the elongation step of protein synthesis. Belongs to the ribosomal protein L12P family.
Protein type: Translation; Ribosomal
Chromosomal Location of Human Ortholog: 15q22
Cellular Component: cytoplasm; cytosol; focal adhesion
Molecular Function: protein binding; RNA binding; structural constituent of ribosome
Biological Process: cellular protein metabolic process; gene expression; mRNA catabolic process, nonsense-mediated decay; selenium metabolic process; selenocysteine metabolic process; SRP-dependent cotranslational protein targeting to membrane; translation; translational elongation; translational initiation; translational termination; viral infectious cycle; viral reproduction; viral transcription
Product References and Citations for RPLP1 recombinant protein
Human acidic ribosomal phosphoproteins P0, P1, and P2
analysis of cDNA clones, in vitro synthesis, and assembly.Rich B.E., Steitz J.A.Mol. Cell. Biol. 7:4065-4074(1987)
The human ribosomal protein genes
sequencing and comparative analysis of 73 genes.Yoshihama M., Uechi T., Asakawa S., Kawasaki K., Kato S., Higa S., Maeda N., Minoshima S., Tanaka T., Shimizu N., Kenmochi N.Genome Res. 12:379-390(2002)
Analysis of the DNA sequence and duplication history of human chromosome 15.Zody M.C., Garber M., Sharpe T., Young S.K., Rowen L., O'Neill K., Whittaker C.A., Kamal M., Chang J.L., Cuomo C.A., Dewar K., FitzGerald M.G., Kodira C.D., Madan A., Qin S., Yang X., Abbasi N., Abouelleil A., Arachchi H.M., Baradarani L., Birditt B., Bloom S., Bloom T., Borowsky M.L., Burke J., Butler J., Cook A., DeArellano K., DeCaprio D., Dorris L. III, Dors M., Eichler E.E., Engels R., Fahey J., Fleetwood P., Friedman C., Gearin G., Hall J.L., Hensley G., Johnson E., Jones C., Kamat A., Kaur A., Locke D.P., Madan A., Munson G., Jaffe D.B., Lui A., Macdonald P., Mauceli E., Naylor J.W., Nesbitt R., Nicol R., O'Leary S.B., Ratcliffe A., Rounsley S., She X., Sneddon K.M.B., Stewart S., Sougnez C., Stone S.M., Topham K., Vincent D., Wang S., Zimmer A.R., Birren B.W., Hood L., Lander E.S., Nusbaum C.Nature 440:671-675(2006)
Mural R.J., Istrail S., Sutton G., Florea L., Halpern A.L., Mobarry C.M., Lippert R., Walenz B., Shatkay H., Dew I., Miller J.R., Flanigan M.J., Edwards N.J., Bolanos R., Fasulo D., Halldorsson B.V., Hannenhalli S., Turner R., Yooseph S., Lu F., Nusskern D.R., Shue B.C., Zheng X.H., Zhong F., Delcher A.L., Huson D.H., Kravitz S.A., Mouchard L., Reinert K., Remington K.A., Clark A.G., Waterman M.S., Eichler E.E., Adams M.D., Hunkapiller M.W., Myers E.W., Venter J.C.
Identification and characterization of phosphorylated proteins in the human pituitary.Giorgianni F., Beranova-Giorgianni S., Desiderio D.M.Proteomics 4:587-598(2004)
Phosphoproteomic analysis of the human pituitary.Beranova-Giorgianni S., Zhao Y., Desiderio D.M., Giorgianni F.Pituitary 9:109-120(2006)
Lys-N and trypsin cover complementary parts of the phosphoproteome in a refined SCX-based approach.Gauci S., Helbig A.O., Slijper M., Krijgsveld J., Heck A.J., Mohammed S.Anal. Chem. 81:4493-4501(2009)
Initial characterization of the human central proteome.Burkard T.R., Planyavsky M., Kaupe I., Breitwieser F.P., Buerckstuemmer T., Bennett K.L., Superti-Furga G., Colinge J.BMC Syst. Biol. 5:17-17(2011)
Comparative large-scale characterisation of plant vs. mammal proteins reveals similar and idiosyncratic N-alpha acetylation features.Bienvenut W.V., Sumpton D., Martinez A., Lilla S., Espagne C., Meinnel T., Giglione C.Mol. Cell. Proteomics 11:M111.015131-M111.015131(2012)
Solution structure of the dimerization domain of the eukaryotic stalk P1/P2 complex reveals the structural organization of eukaryotic stalk complex.Lee K.M., Yu C.W., Chiu T.Y., Sze K.H., Shaw P.C., Wong K.B.Nucleic Acids Res. 40:3172-3182(2012)
Structures of the human and Drosophila 80S ribosome.Anger A.M., Armache J.P., Berninghausen O., Habeck M., Subklewe M., Wilson D.N., Beckmann R.Nature 497:80-85(2013)
Research Articles on RPLP1
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Products associated with RPLP1 recombinant protein
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Diseases associated with RPLP1 recombinant protein
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