Jump to content

KRBA1

From Wikipedia, the free encyclopedia
KRBA1
Identifiers
AliasesKRBA1, KRAB-A domain containing 1
External IDsMGI: 1925077; HomoloGene: 15880; GeneCards: KRBA1; OMA:KRBA1 - orthologs
Orthologs
SpeciesHumanMouse
Entrez
Ensembl
UniProt
RefSeq (mRNA)

NM_001290187
NM_032534

NM_133922
NM_001347152
NM_001347153
NM_001362144
NM_001362145

RefSeq (protein)

NP_001277116
NP_115923

NP_001334081
NP_001334082
NP_598683
NP_001349073
NP_001349074

Location (UCSC)Chr 7: 149.71 – 149.73 MbChr 6: 48.37 – 48.4 Mb
PubMed search[3][4]
Wikidata
View/Edit HumanView/Edit Mouse

KRBA1 is a protein that in humans is encoded by the KRBA1 gene. It is located on the plus strand of chromosome 7 from 149,411,872 to 149,431,664.[5] It is also commonly known under two other aliases: KIAA1862 and KRAB A Domain Containing 1 gene and encodes the KRBA1 protein in humans.[6] The KRBA family of genes is understood to encode different transcriptional repressor proteins[7]

Gene

[edit]
Location of KRBA1 Gene on chromosome 7 as designated by the red line

The KRBA1 gene is located on chromosome 7 at 7q36 in humans. It is 3786 base pairs in length with 17 exons total, however the coding sequence is only 3196 base pairs long resulting in a protein with 1064 amino acids.[8]

Protein

[edit]

The KRBA1 protein has a predicted isoelectric point of 7.8pI and a predicted molecular weight of 112 kD which makes it a relatively large and neutral protein.[9] This protein is primarily made up of four amino acids. The four major ones are: Proline at 15.7%, Glycine at 11.2%, Serine at 10.9%, and Leucine at 10.2%.[9] Proline is present in well above average proportions. However, it was the only one as such and the amino acids M, N, Y, I, and F are all present in just below average proportions.

Isoforms

[edit]

There are two isoforms for this protein known simply as isoform 1 and 2. Isoform 1 is the smaller one as it has a shorter N-terminus. Additionally, its 5'-UTR is different and its start codon is farther downstream.[8]

Domains and motifs

[edit]

The domain of function is the KRBA box which is predicted to start at base pair 7 and end at base pair 47. For motifs there was a leucine zipper and two nuclear localization signals (NLS) were found.[10] Additionally, two fairly large proline rich regions are present towards the C-terminus of the protein.[11]

The leucine zipper is present at base pair 837: LHSLGAALAEKLDRLATALAGL

One 4 pattern and one 7 pattern NLS were found

pat4: KRPR @ 763bp

pat7: PSRRKSH @ 217bp

Secondary and tertiary structure

[edit]

Using the GOR4 program, it can be inferred that KRBA1 has very little specific secondary structure composed of mostly random coil regions. Random coil regions constitute 75.00% of the protein, while alpha helices constitute 16.26% and extended strands 8.74%.[12] The alpha helices are broken up into many sections throughout the protein.

DNA level regulation

[edit]

Promoter

[edit]

The promoter region was chosen using ElDorado at Genomatix, which assessed the KRBA1 gene locus for possible promoter regions. Out of nine possible promoter sets, Promoter Set 2 (GXP_660502) was chosen, as its transcripts had much higher numbers of CAGE tags than any other set. Coding transcript GXT_27212195 was used, as it had the highest number of exons (17/17 possible), and matched with the NM_001290187 accession number on NCBI for KRBA1 mRNA.[13]

Transcription factor binding sites

[edit]
As determined by MatInspector at Genomatix, the following are transcription factors (TFs) predicted to bind to KRBA1 in the promoter region. They were selected based on increased similarity scores and increased occurrences.[13]
Matrix Family Detailed Family Information Matrix Detailed Matrix Information Starting bp Ending bp Anchor bp Strand Similarity Sequence
V$ZTRE Zinc transcriptional regulatory element V$ZTRE.03 5' half site of ZTRE motif 1141 1157 1149 (+) 0.993 ccCTCCccctcggccca
V$ZTRE Zinc transcriptional regulatory element V$ZTRE.03 5' half site of ZTRE motif 898 914 906 (-) 0.989 ccCTCCcctcgtccccg
V$ZTRE Zinc transcriptional regulatory element V$ZTRE.04 3' half site of ZTRE motif 1133 1149 1141 (-) 0.984 gggGGAGgggcgggggt
V$ZTRE Zinc transcriptional regulatory element V$ZTRE.04 3' half site of ZTRE motif 906 922 914 (+) 0.983 aggGGAGggggcgggga
V$PLAG Pleomorphic adenoma gene V$PLAG1.01 Pleomorphic adenoma gene (PLAG) 1, a developmentally regulated C2H2 zinc finger protein 66 88 77 (+) 0.951 cgGAGGccgggacgaggggttgt
V$PLAG Pleomorphic adenoma gene V$PLAG1.02 Pleomorphic adenoma gene 1 307 329 318 (-) 1 aaGGGGgcctgcggggctaagcc
V$PLAG Pleomorphic adenoma gene V$PLAG1.02 Pleomorphic adenoma gene 1 459 481 470 (+) 1 caGGGGgaggcagaggagagtgg
V$PLAG Pleomorphic adenoma gene V$PLAG1.02 Pleomorphic adenoma gene 1 30 52 41 (+) 1 gaGGGGgctttgcccgagtgggc
V$SMAD Vertebrate SMAD family of transcription factors V$SMAD3.01 Smad3 transcription factor involved in TGF-beta signaling 199 209 204 (+) 0.994 gctGTCTgggc
V$SMAD Vertebrate SMAD family of transcription factors V$SMAD3.01 Smad3 transcription factor involved in TGF-beta signaling 213 223 218 (+) 0.996 aagGTCTggac
V$SMAD Vertebrate SMAD family of transcription factors V$SMAD3.01 Smad3 transcription factor involved in TGF-beta signaling 428 438 433 (-) 0.994 ctgGTCTgggc
V$SMAD Vertebrate SMAD family of transcription factors V$SMAD3.02 Smad3 transcription factor involved in TGF-beta signaling factor PU.1 363 373 368 (-) 0.993 cctGTCTggag
V$AHRR AHR-arnt heterodimers and AHR-related factors V$AHRARNT.03 DRE (dioxin response elements), XRE (xenobiotic response elements) bound by AHR/ARNT heterodimers 41 65 53 (+) 0.971 gcccgagtggGCGTgcgcctttcct
V$AHRR AHR-arnt heterodimers and AHR-related factors V$AHRARNT.03 DRE (dioxin response elements), XRE (xenobiotic response elements) bound by AHR/ARNT heterodimers 246 270 258 (+) 0.952 agtctcctctGCGTgggaccacagc
V$AHRR AHR-arnt heterodimers and AHR-related factors V$AHRARNT.01 Aryl hydrocarbon receptor / Arnt heterodimers 556 580 568 (-) 0.97 gtcacattttgCGTGcctgtttgct
V$AHRR AHR-arnt heterodimers and AHR-related factors V$AHRARNT.03 DRE (dioxin response elements), XRE (xenobiotic response elements) bound by AHR/ARNT heterodimers 658 682 670 (-) 0.956 gtccggccggGCGTgggtgggacag

Expression pattern

[edit]

In humans, this gene is ubiquitously expressed at a fairly low level, approximately 0.6 times the expression of the average gene.[8] Keeping that in mind, this gene is expressed the most in the heart. There is some expression in other areas such as the reproductive organs and the brain, but it is much less. When it comes to the common mouse Mus musculus, the expression of the KRBA1 gene occurs in different areas of the body compared to humans. In mice, the highest expression isn't in the heart but in the reproductive organs along with the adrenal gland and thymus.[8]

Protein level regulation

[edit]

Localization

[edit]

This protein is localized in the nucleus.[5] The gene is predicted to contain two nuclear localization signals (NLS) both a 4 residue pattern and 7 residue pattern signal.[10]

Post translational modifications

[edit]

There weren't many different types of post translational modifications that were found. However, the few that were found occur throughout the protein at high levels. The few that were found were: O-GlcNAc,[14] O-Glycosylation,[15] and net phosphorylation,[16] and glycation.[17] All four of them have a multitude of sites throughout the entire protein.

Homology and evolution

[edit]
The mutation rate of KRBA1 compared to fibrinopeptides, hemoglobin, and cytochrome c.

KRBA1 orthologs have a relatively high mutation rate as seen in the graph below comparing KRBA1 with fibrinopeptides, hemoglobin, and cytochrome C. The orthologs in the table below are sorted by sequence identity and similarity.[8]

This table displays 10 relatively distant orthologs with sequence identity ranging from 63%-36%[8][18]
Genus and Species Common name Taxonomic Group Date of divergence

(MYA)

Accession number Sequence length (aa) Sequence identity % Sequence similarity
Homo sapiens Humans primates n/a NP_001277116.1 1064 100% 100%
Equus asinus Asinus Equidae 96 XP_014686007.1 1179 63% 69%
Leptonychotes weddellii Weddell seal Pinnipedia 96 XP_030881320.1 1142 63% 69%
Phoca vitulina Harbor seal Pinnipedia 96 XP_032257255.1 1184 63% 69%
Nannospalax galili Greater mole rat Rodentia 90 XP_008832018.1 1103 62% 69%
Felis catus Cat Felidae 96 XP_011278956.2 1159 62% 67%
Mus musculus Mouse Rodentia 90 NP_001334081.1 1078 58% 67%
Mus Pahari Garidner's shrewmouse Rodentia 90 XP_029390880.1 1086 57% 66%
Gallus gallus Chicken Aves 312 XP_025003155.1 555 40% 52%
Pogona vitticeps Central bearded dragon Reptilia 312 XP_020655832.1 1697 36% 51%
This picture depicts a time-calibrated, unrooted, phylogenetic tree of a few organisms that have orthologs of the KRBA1 gene.

Function and biochemistry

[edit]

The domain of function on this gene is known as the KRAB (Kruppel-associated box) domain - A box and it spans from amino acid 7 to 47. It is a transcription repression domain within the zinc finger proteins subgroup of the KRAB-ZFPs family.[7] The KRAB domain interacts with and recruits other proteins and corepressors and then represses transcription. The mechanism appears to be the following: the KRBA proteins via their KRAB domain recruit the repressor KAP1 (KRAB-associated protein-1, also known as transcription intermediary factor 1 beta, KRAB-A interacting protein). The KAP1/ KRAB complex then recruits the heterochromatin protein 1 (HP1), and other chromatin modulating proteins, leading to transcriptional repression through heterochromatin formation.[7]

Interacting proteins

[edit]

Using the STRING database, two interacting proteins were found to have high confidence interaction scores. High interaction scores are any scores above 0.7. The two proteins are Transcription intermediary factor 1-beta (TRIM28) with a score of 0.903 and Leucine-rich repeat-containing protein 61 (LRRC61) with a score 0.803.[19]

Clinical significance

[edit]

A research done by Zaibo Li et al. displayed the KRAB-A-Domain in action. The von-Hippel Lindau tumor suppressor (pVHL) is a part of protein complex known as E3 ubiquitin ligase and targets hypoxia-inducible-factor 1a (HIF-1a) for breakdown. It is reported that there is a new protein that was discovered that interacts with the pVHL protein and helps it with its job.[20] pVHL works by bringing in histone deacetylases, and it is helped by a certain domain on this new protein. It is shown in a study by Li et al. that this domain is the KRAB-A-domain and it mediates pVHL's transcriptional repression of HIF-1a.[20] Additionally, the research shows that the KRAB-A-domain is shown to repress transcription on top of its ability to recruit histone deacetylases.[20]

References

[edit]
  1. ^ a b c GRCh38: Ensembl release 89: ENSG00000133619Ensembl, May 2017
  2. ^ a b c GRCm38: Ensembl release 89: ENSMUSG00000042810Ensembl, May 2017
  3. ^ "Human PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
  4. ^ "Mouse PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
  5. ^ a b "AceView: Gene:KRBA1, a comprehensive annotation of human, mouse and worm genes with mRNAs or ESTsAceView". www.ncbi.nlm.nih.gov. Retrieved 2020-05-02.
  6. ^ "KRBA1 Gene - GeneCards | KRBA1 Protein | KRBA1 Antibody". www.genecards.org. Retrieved 2020-05-02.
  7. ^ a b c "CDD Conserved Protein Domain Family: KRAB_A-box". www.ncbi.nlm.nih.gov. Retrieved 2020-05-02.
  8. ^ a b c d e f "KRBA1 KRAB-A domain containing 1 [Homo sapiens (human)] - Gene - NCBI". www.ncbi.nlm.nih.gov. Retrieved 2020-05-02.
  9. ^ a b "ExPASy - Compute pI/Mw tool". web.expasy.org. Retrieved 2020-05-02.
  10. ^ a b "PSORT II Prediction". psort.hgc.jp. Retrieved 2020-05-02.
  11. ^ "ELM - Search the ELM resource". elm.eu.org. Retrieved 2020-05-02.
  12. ^ "NPS@ : GOR4 secondary structure prediction". npsa-prabi.ibcp.fr. Retrieved 2020-05-02.
  13. ^ a b "Genomatix - NGS Data Analysis & Personalized Medicine". www.genomatix.de. Retrieved 2020-05-02.
  14. ^ "YinOYang 1.2 Server". www.cbs.dtu.dk. Retrieved 2020-05-02.
  15. ^ "NetOGlyc 4.0 Server". www.cbs.dtu.dk. Retrieved 2020-05-02.
  16. ^ "NetPhos 3.1 Server". www.cbs.dtu.dk. Retrieved 2020-05-02.
  17. ^ "NetGlycate 1.0 Server". www.cbs.dtu.dk. Retrieved 2020-05-02.
  18. ^ "TimeTree :: The Timescale of Life". www.timetree.org. Retrieved 2020-05-03.
  19. ^ "KRBA1 protein (human) - STRING interaction network". version11.string-db.org. Retrieved 2020-05-02.
  20. ^ a b c Li Z, Wang D, Na X, Schoen SR, Messing EM, Wu G (April 2003). "The VHL protein recruits a novel KRAB-A domain protein to repress HIF-1alpha transcriptional activity". The EMBO Journal. 22 (8): 1857–67. doi:10.1093/emboj/cdg173. PMC 154465. PMID 12682018.