This protein family is found in archaea and eukaryota. Proteins in this family contain a predicted DNA-binding domain []and may function as DNA-binding proteins. Methanobacterium thermoautotrophicum MTH1615 was predicted to bind DNA based on structural proteomics data, and this was confirmed by the demonstration that it can interact non-specifically with a randomly chosen 20-mer of double stranded DNA []. This suggests that the human protein may be involved in nucleic acid binding or metabolism.The human programmed cell death protein 5 (PDCD5, also known as TFAR19) encodes a protein which shares significant homology to the corresponding proteins of species ranging from yeast to mice. PDCD5 exhibits a ubiquitous expression pattern and its expression is up-regulated in the tumour cells undergoing apoptosis. PDCD5 may play a general role in the apoptotic process [, ].
Proteins in this entry are found in archaea and eukaryota, they contain a predicted DNA-binding domain []and may function as DNA-binding proteins. Methanobacterium thermoautotrophicum MTH1615 was predicted to bind DNA based on structural proteomics data, and this was confirmed by the demonstration that it can interact non-specifically with a randomly chosen 20-mer of double stranded DNA []. This suggests that the human protein may be involved in nucleic acid binding or metabolism.The human programmed cell death protein 5 (PDCD5, also known as TFAR19) encodes a protein which shares significant homology to the corresponding proteins of species ranging from yeast to mice. PDCD5 exhibits a ubiquitous expression pattern and its expression is up-regulated in the tumour cells undergoing apoptosis. PDCD5 may play a general role in the apoptotic process [, ].
