TNF superfamily member 14
mammalian protein found in Rattus norvegicus
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TNF superfamily member 14
Summary
TNF superfamily member 14 is a protein[1].
Key Facts
- TNF superfamily member 14's instance of is recorded as protein[2].
- TNF superfamily member 14's UniProt protein ID is recorded as M0RCN2[3].
- TNF superfamily member 14's part of is recorded as Tumour necrosis factor-like domain superfamily[4].
- TNF superfamily member 14's part of is recorded as tumor necrosis factors[5].
- TNF superfamily member 14's part of is recorded as Tumour necrosis factor domain, protein family[6].
- TNF superfamily member 14's has part is recorded as Tumour necrosis factor domain[7].
- TNF superfamily member 14's RefSeq protein ID is recorded as NP_001178732[8].
- TNF superfamily member 14's RefSeq protein ID is recorded as XP_038939074[9].
- TNF superfamily member 14's molecular function is recorded as signaling receptor binding[10].
- TNF superfamily member 14's molecular function is recorded as cytokine activity[11].
- TNF superfamily member 14's molecular function is recorded as tumor necrosis factor receptor binding[12].
- TNF superfamily member 14's molecular function is recorded as cysteine-type endopeptidase inhibitor activity involved in apoptotic process[13].
- TNF superfamily member 14's cell component is recorded as extracellular space[14].
- TNF superfamily member 14's cell component is recorded as membrane[15].
- TNF superfamily member 14's cell component is recorded as integral component of membrane[16].
- TNF superfamily member 14's biological process is recorded as apoptotic process[17].
- TNF superfamily member 14's biological process is recorded as immune response[18].
- TNF superfamily member 14's biological process is recorded as positive regulation of T cell chemotaxis[19].
- TNF superfamily member 14's biological process is recorded as T cell costimulation[20].
- TNF superfamily member 14's biological process is recorded as negative regulation of cysteine-type endopeptidase activity involved in apoptotic process[21].
- TNF superfamily member 14's biological process is recorded as positive regulation of myoblast differentiation[22].
- TNF superfamily member 14's biological process is recorded as cellular response to mechanical stimulus[23].
- TNF superfamily member 14's biological process is recorded as positive regulation of myoblast fusion[24].
- TNF superfamily member 14's biological process is recorded as regulation of signaling receptor activity[25].
- TNF superfamily member 14's biological process is recorded as positive regulation of NIK/NF-kappaB signaling[26].