Table 1.
List of various human canonical and non-canonical PAPs.
| Name of the PAP | Localisation | Functional significance | Reference |
|---|---|---|---|
| Canonical PAP | |||
| PAPα PAP I PAP II PAP III PAP IV PAP V PAP VI |
Nuclear |
PAP II is the most predominant PAP; involves in general 3′-end processing of all nuclear nascent pre-mRNAs (PAP I and IV – function not clear, likely similar to PAP II) PAP V, III, VI are truncated inactive form, Do not encode functional proteins |
[16,18,94,102,114] |
| PAP β (PAPT) | Nuclear/Cytoplasmic | Testes specific – spermatogenesis | [12,15] |
| PAP γ/neoPAP | Nuclear | Tumourigenesis, monoadenylation activity towards small RNA | [13,17,112] |
| Non-canonical PAP | |||
| PAPD1 (hmtPAP) | Mitochondrial | Mitochondrial mRNA stabilisation, histone mRNA degradation, stop codon regeneration | [118,120–123] |
| PAPD4 (hGld2) | Nuclear/cytoplasmic | Cytoplasmic mRNA polyadenylation, miRNA stabilisation | [122,125,126,128] For review [127,129] |
| PAPD5 | Nuclear | Aberrant rRNA degradation, histone degradation, processing of snoRNAs, various other RNA targets | [21,139–141] |
| POLS (PAPD7) | Nuclear | Not clearly defined, likely redundant to PAPD5 | [21,140] |
| ZCCHC6 (TUT 4) | Nuclear | Similar to ZCCHC11; regulate Let 7 biogenesis | [147,157] |
| ZCCHC11 (TUT 6) | Nuclear | miRNA regulation (let7, mi26a and others), histone mRNA degradation | [124,143,147,157] |
| Star-PAP (RBM 21, TUT1) | Nuclear | Oxidative stress response, DNA damage induced apoptosis and various other cellular functions | [19,20,23,24] |