Reactome: A Curated Pathway Database
Results 1 to 10 of 88
Pathways (26) Reactions (30) Proteins (1) Others (31)
Protein: UniProt:P46783 RPS10 (Homo sapiens)
Last changed: 2015-03-10 08:59:22

Pathway: Gene Expression (Homo sapiens)
Gene Expression covers the pathways by which genomic DNA is transcribed to yield RNA, the regulation of these transcription processes, and the pathways by which newly-made RNA Transcripts are processed. Most annotation is centered on the generation of messenger RNAs (mRNAs) by regulated RNA polymerase II (PolII) transcription, although the activities of PolI and PolIII are also covered briefly, as are
Last changed: 2015-03-06 23:15:47

Pathway: Metabolism of proteins (Homo sapiens)
Protein metabolism comprises the pathways of translation, post-translational modification and protein folding
Last changed: 2015-03-06 23:15:47

Pathway: Disease (Homo sapiens)
Biological processes are captured in Reactome by identifying the molecules (DNA, RNA, protein, small molecules) involved in them and describing the details of their interactions. From this molecular viewpoint, human disease pathways have three mechanistic causes: the inclusion of microbially-expressed proteins, altered functions of human proteins, or changed expression levels of otherwise functionally
Last changed: 2015-03-06 23:15:47

Pathway: Influenza Life Cycle (Homo sapiens)
The virus particle initially associates with a human host cell by binding to sialic acid-containing receptors on the host cell surface. The bound virus is endocytosed by one of four distinct mechanisms. The low endosomal pH sets in motion a number of steps that lead to viral membrane fusion mediated by the viral hemagglutinin (HA) protein, and the eventual release of the uncoated viral ribonucleoprotei
Last changed: 2014-08-29 21:08:10

Pathway: Eukaryotic Translation Initiation (Homo sapiens)
Initiation of translation in the majority of eukaryotic cellular mRNAs depends on the 5'-cap (m7GpppN) and involves ribosomal scanning of the 5' untranslated region (5'-UTR) for an initiating AUG start codon. Therefore, this mechanism is often called cap-dependent translation initiation. Proximity to the cap, as well as the nucleotides surrounding an AUG codon, influence the efficiency of the start sit
Last changed: 2015-03-06 23:15:47

Pathway: Translation (Homo sapiens)
Protein synthesis is accomplished through the process of translation of an mRNA sequence into a polypeptide chain. This process can be divided into three distinct stages: initiation, elongation and termination. During the initiation phase, the two subunits of the ribosome are brought together to the translation start site on the mRNA where the polypeptide chain is to begin. Extension of the polypeptid
Last changed: 2015-03-06 23:15:47

Pathway: Influenza Infection (Homo sapiens)
For centuries influenza epidemics have plagued man, and influenza was probably the disease described by Hippocrates in 412 BC. Today it remains a major cause of morbidity and mortality worldwide with large segments of the human population affected every year. Many animal species can be infected by influenza viruses, often with catastrophic consequences. A continuing threat is the possibility of a pande
Last changed: 2014-08-29 21:08:10

Pathway: Eukaryotic Translation Elongation (Homo sapiens)
The translation elongation cycle adds one amino acid at a time to a growing polypeptide according to the sequence of codons found in the mRNA. The next available codon on the mRNA is exposed in the aminoacyl-tRNA (aa-tRNA) binding site (A site) on the 30S subunit. A: Ternary complexes of aa -tRNA:eEF1A:GTP enter the ribosome and enable the anticodon of the tRNA to make a codon/anticodon interaction
Last changed: 2015-03-06 23:15:47

Pathway: Nonsense-Mediated Decay (NMD) (Homo sapiens)
The Nonsense-Mediated Decay (NMD) pathway activates the destruction of mRNAs containing premature termination codons (PTCs) (reviewed in Isken and Maquat 2007, Chang et al. 2007, Behm-Ansmant et al. 2007, Neu-Yilik and Kulozik 2008, Rebbapragada and Lykke-Andersen 2009, Bhuvanagiri et al. 2010, Nicholson et al. 2010, Durand and Lykke-Andersen 2011). In mammalian cells a termination codon can be recogni
Last changed: 2015-03-06 23:15:47

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