DHX38
Pre-iRNK-faktor prerade ATP-ovisne RNK helikaze PRP16 je enzim koji je kod ljudi kodiran genom DHX38.[5][6][7] Gross (2018) mapirao je gen DHX38 u hromosom 16, sekvenca q22.2, na osnovu poravnanja DHX38 sekvence (GenBank BC004235) sa genomskom sekvencom (GRCh38).
Prerada pre-iRNK zahtijeva stvaranje niza splajsosomnih kompleksa koji se okupljaju redom E, A, B i C. U C kompleksu postoje dva koraka katalitske prerade. DHX38 je faktor prerade, bitan za katalitički korak II.[8]
DEAD kutija proteina, koju karakterizira konzervirani motiv Asp-Glu-Ala-Asp (DEAD), obuhvata navodne RNK-helikaze. Uključeni su u brojne ćelijske procese promjene sekundarne strukture RNK, poput inicijacije translacije, jedare, mitohondrijske ribosomne prerade i prerade splajsosoma. Na osnovu njihovih obrazaca raspodjele, vjeruje se da su neki članovi ove porodice uključeni u embriogenezu, spermatogenezu i ćelijski rast i diobu. Protein kodiran od ovog gena član je porodice faktora prerade RNK DEAD/H. Ovaj protein sličniji je kvaščevom Prp16 više nego ostali članovi ove porodice. To je ATPaza , bitna je za katalitski korak II u procesu prerade pre-iRNK.[7]
Aminokiselinska sekvenca
urediDužina polipeptidnog lanca je 1.227 aminokiselina, a molekulska težina 140.503 Da.[9].
10 | 20 | 30 | 40 | 50 | ||||
---|---|---|---|---|---|---|---|---|
MGDTSEDASI | HRLEGTDLDC | QVGGLICKSK | SAASEQHVFK | APAPRPSLLG | ||||
LDLLASLKRR | EREEKDDGED | KKKSKVSSYK | DWEESKDDQK | DAEEEGGDQA | ||||
GQNIRKDRHY | RSARVETPSH | PGGVSEEFWE | RSRQRERERR | EHGVYASSKE | ||||
EKDWKKEKSR | DRDYDRKRDR | DERDRSRHSS | RSERDGGSER | SSRRNEPESP | ||||
RHRPKDAATP | SRSTWEEEDS | GYGSSRRSQW | ESPSPTPSYR | DSERSHRLST | ||||
RDRDRSVRGK | YSDDTPLPTP | SYKYNEWADD | RRHLGSTPRL | SRGRGRREEG | ||||
EEGISFDTEE | ERQQWEDDQR | QADRDWYMMD | EGYDEFHNPL | AYSSEDYVRR | ||||
REQHLHKQKQ | KRISAQRRQI | NEDNERWETN | RMLTSGVVHR | LEVDEDFEED | ||||
NAAKVHLMVH | NLVPPFLDGR | IVFTKQPEPV | IPVKDATSDL | AIIARKGSQT | ||||
VRKHREQKER | KKAQHKHWEL | AGTKLGDIMG | VKKEEEPDKA | VTEDGKVDYR | ||||
TEQKFADHMK | RKSEASSEFA | KKKSILEQRQ | YLPIFAVQQE | LLTIIRDNSI | ||||
VIVVGETGSG | KTTQLTQYLH | EDGYTDYGMI | GCTQPRRVAA | MSVAKRVSEE | ||||
MGGNLGEEVG | YAIRFEDCTS | ENTLIKYMTD | GILLRESLRE | ADLDHYSAII | ||||
MDEAHERSLN | TDVLFGLLRE | VVARRSDLKL | IVTSATMDAE | KFAAFFGNVP | ||||
IFHIPGRTFP | VDILFSKTPQ | EDYVEAAVKQ | SLQVHLSGAP | GDILIFMPGQ | ||||
EDIEVTSDQI | VEHLEELENA | PALAVLPIYS | QLPSDLQAKI | FQKAPDGVRK | ||||
CIVATNIAET | SLTVDGIMFV | IDSGYCKLKV | FNPRIGMDAL | QIYPISQANA | ||||
NQRSGRAGRT | GPGQCFRLYT | QSAYKNELLT | TTVPEIQRTN | LANVVLLLKS | ||||
LGVQDLLQFH | FMDPPPEDNM | LNSMYQLWIL | GALDNTGGLT | STGRLMVEFP | ||||
LDPALSKMLI | VSCDMGCSSE | ILLIVSMLSV | PAIFYRPKGR | EEESDQIREK | ||||
FAVPESDHLT | YLNVYLQWKN | NNYSTIWCND | HFIHAKAMRK | VREVRAQLKD | ||||
IMVQQRMSLA | SCGTDWDIVR | KCICAAYFHQ | AAKLKGIGEY | VNIRTGMPCH | ||||
LHPTSSLFGM | GYTPDYIVYH | ELVMTTKEYM | QCVTAVDGEW | LAELGPMFYS | ||||
VKQAGKSRQE | NRRRAKEEAS | AMEEEMALAE | EQLRARRQEQ | EKRSPLGSVR | ||||
STKIYTPGRK | EQGEPMTPRR | TPARFGL |
- Simboli
Kloniranje i ekspresija
urediPretragom baza podataka o sekvencama za homologe kvasca Prp16 i Prp17, koji su uključeni u katalitski korak II, praćenom PCR-om, Zhou i Reed (1998) izolirali su cDNK koja kodira ljudskee PRP16 i PRP17. Predviđeni protein PRP16 sa 1.227 aminokiselina, koji je 41% identičan kvašćevom Prp16, sadrži konzerviranini motiv koji veže NTP i šest motiva RNK-helikaza, koji su tipski za porodicu kutija DEAH navodnih RNK-helikaza. PRP16 se razlikuje od svog homologa kvasca na N-kraju, gdje ima REDS-bogatu regiju koje nema u kvaščevom Prp16. Analizom komplementacije, utvrđeno je da PRP16 nije mogao spasiti nokaut Prp16 kvasca, osim kao himera s 298 N-terminalnih ostataka kvasca Prp16, što sugerira da regija bogata REDS-om ne može funkcionirati u sustavu kvasca, dok su faktori DEAH okvira ključni. Western blot analiza otkrila je jedarni protein od 140 kD koji se pojavio kasnije od SF3B3 i povezan je sa splajsosomom prije katalitskog koraka II. Studije imunoosirošivanje/dodavanja u ljudskim jedarnim ekstraktima pokazale su da je PRP16 općeniti faktor prerade, bitan za katalitski korak II.
Molekulska genetika
urediSekvenciranjem egzona u pakistanskoj porodici srodnika s ranim početkom retinitis pigmentosa i makulskog koloboma, u kojem je bilo sugestivne veze sa hromosomom 16 (višestruka ocjena loda od 2,65 za marker rs11646282), Ajmal et al. (2014) identificirali su homozigotnost zbog misens mutacije u genu DHX38 (G332D) koja se odvojila od fenotipa u porodici. Varijanta nije pronađena u 180 etnički podudarnih kontrola ili u Exome Variant Serveru, projektu 1000 Genomes ili u bazama podataka dbSNP. Nisu izvedene funkcionalne studije varijante. U dva pogođena člana srodničke pakistanske porodice (MA88 i MA157) s retinitis pigmentosa s ranim početkom, Latif et al. (2018) identificirali su homozigotnost za istu misense mutaciju u genu DHX38 (R324Q). Sekvenciranje gena kod tri člana svake porodice sa normalnim vidom nije identificiralo mutaciju. Varijanta nije bila prisutna ni u jednom od 30.766 južnoazijskih alela u bazi podataka gnomAD. Nisu izvedene funkcionalne studije varijante.[10][11]
Reference
uredi- ^ a b c GRCh38: Ensembl release 89: ENSG00000140829 - Ensembl, maj 2017
- ^ a b c GRCm38: Ensembl release 89: ENSMUSG00000037993 - Ensembl, maj 2017
- ^ "Human PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
- ^ "Mouse PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
- ^ Zhou Z, Reed R (Jun 1998). "Human homologs of yeast prp16 and prp17 reveal conservation of the mechanism for catalytic step II of pre-mRNA splicing". EMBO J. 17 (7): 2095–106. doi:10.1093/emboj/17.7.2095. PMC 1170554. PMID 9524131.
- ^ Nagase T, Seki N, Ishikawa K, Ohira M, Kawarabayasi Y, Ohara O, Tanaka A, Kotani H, Miyajima N, Nomura N (maj 1997). "Prediction of the coding sequences of unidentified human genes. VI. The coding sequences of 80 new genes (KIAA0201-KIAA0280) deduced by analysis of cDNA clones from cell line KG-1 and brain". DNA Res. 3 (5): 321–9, 341–54. doi:10.1093/dnares/3.5.321. PMID 9039502.
- ^ a b "Entrez Gene: DHX38 DEAH (Asp-Glu-Ala-His) box polypeptide 38".
- ^ (Zhou i Reed, 1998). Zhou, Z., Reed, R. Human homologs of yeast Prp16 and Prp17 reveal conservation of the mechanism for catalytic step II of pre-mRNA splicing. EMBO J. 17: 2095-2106, 1998. PubMed: 9524131
- ^ "UniProt, Q92620". Pristupljeno 4. 7. 2021.
- ^ Ajmal, M., Khan, M. I., Neveling, K., Khan, Y. M., Azam, M., Waheed, N. K., Hamel, C. P., Ben-Yosef, T., De Baere, E., Koenekoop, R. K., Collin, R. W. J., Qamar, R., Cremers, F. P. M. A missense mutation in the splicing factor gene DHX38 is associated with early-onset retinitis pigmentosa with macular coloboma. J. Med. Genet. 51: 444-448, 2014. [PubMed[: 24737827
- ^ Latif, Z., Chakchouk, I., Schrauwen, I., Lee, K., Santos-Cortez, R. L. P., Abbe, I., Acharya, A., Jarral, A., Ali, I., Ullah, E., Khan, M. N., Ali, G., Tahir, T. H., Bamshad, M. J., Nickerson, D. A., Ahmad, W., Ansar, M., Leal, S. M. Confirmation of the role of DHX38 in the etiology of early-onset retinitis pigmentosa. Invest. Ophthal. Vis. Sci. 59: 4552-4557, 2018. [PubMed]: 30208423
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