WD40 repeat

WD domain, G-beta repeat

Ribbon diagram of the C-terminal WD40 domain of Tup1 (a transcriptional corepressor in yeast), which adopts a 7-bladed beta-propeller fold. Ribbon is colored from blue (N-terminus) to red (C-terminus).^[1]

Identifiers

Symbol

WD40

Pfam clan

Available protein structures:
Pfam	structures
PDB	RCSB PDB; PDBe; PDBj
PDBsum	structure summary

The WD40 repeat (also known as the WD or beta-transducin repeat) is a short structural motif of approximately 40 amino acids, often terminating in a tryptophan-aspartic acid (W-D) dipeptide.^[2] Tandem copies of these repeats typically fold together to form a type of circular solenoid protein domain called the WD40 domain.

Structure

WD40 domain-containing proteins have 4 to 16 repeating units, all of which are thought to form a circularised beta-propeller structure (see figure to the right).^[3]^[4] The WD40 domain is composed of several repeats, a variable region of around 20 residues at the beginning followed by a more common repeated set of residues. These repeats typically form a four stranded anti-parallel beta sheet or blade. These blades come together to form a propeller with the most common being a 7 bladed beta propeller. The blades interlock so that the last beta strand of one repeat forms with the first three of the next repeat to form the 3D blade structure.

Function

WD40-repeat proteins are a large family found in all eukaryotes and are implicated in a variety of functions ranging from signal transduction and transcription regulation to cell cycle control, autophagy and apoptosis.^[5] The underlying common function of all WD40-repeat proteins is coordinating multi-protein complex assemblies, where the repeating units serve as a rigid scaffold for protein interactions. The specificity of the proteins is determined by the sequences outside the repeats themselves. Examples of such complexes are G proteins (beta subunit is a beta-propeller), TAFII transcription factor, and E3 ubiquitin ligase.^[3]^[4]

Examples

According to the initial analysis of the human genome WD40 repeats are the eighth largest family of proteins. In all 277 proteins were identified to contain them.^[6] Human genes encoding proteins containing this domain include:

AAAS, AAMP, AHI1, AMBRA1, APAF1, ARPC1A, ARPC1B, ATG16L1,
BOP1, BRWD1, BRWD2, BRWD3, BTRC, BUB3,
C6orf11, CDC20, CDC40, CDRT1, CHAF1B, CIAO1, CIRH1A, COPA, COPB2, CORO1A, CORO1B, CORO1C, CORO2A, CORO2B, CORO6, CORO7, CSTF1,
DDB2, DENND3, DMWD, DMXL1, DMXL2, DNAI1, DNAI2, DNCI1, DTL, DYNC1I1, DYNC1I2, EDC4,
EED, EIF3S2, ELP2, EML1, EML2, EML3, EML4, EML4-ALK, EML5, ERCC8,
FBXW10, FBXW11, FBXW2, FBXW4, FBXW5, FBXW7, FBXW8, FBXW9, FZR1,
GBL, GEMIN5, GNB1, GNB1L, GNB2, GNB2L1, GNB3, GNB4, GNB5, GRWD1, GTF3C2,
HERC1, HIRA, HZGJ,
IFT121, IFT122, IFT140, IFT172, IFT80, IQWD1,
KATNB1, KIAA1336, KIF21A, KIF21B, KM-PA-2,
LLGL1, LLGL2, LRBA, LRRK1, LRRK2, LRWD1, LYST,
MAPKBP1, MED16, MORG1,
NBEA, NBEAL1, NEDD1, NLE1, NSMAF, NUP37, NUP43, NWD1,
PAAF1, PAFAH1B1, PAK1IP1, PEX7, PHIP, PIK3R4, PLAA, PLRG1, PPP2R2A, PPP2R2B, PPP2R2C, PPP2R2D, PPWD1, PREB, PRPF19, PRPF4, PWP1, PWP2,
RAE1, RPTOR, RBBP4, RBBP5, RBBP7, RFWD2, RFWD3, RRP9,
SCAP, SEC13, SEC31A, SEC31B, SEH1L, SHKBP1, SMU1, SPAG16, SPG, STRAP, STRN, STRN3, STRN4, STXBP5, STXBP5L,
TAF5, TAF5L, TBL1X, TBL1XR1, TBL1Y, TBL2, TBL3, TEP1, THOC3, THOC6, TLE1, TLE2, TLE3, TLE4, TLE6, TRAF7, TSSC1, TULP4, TUWD12,
UTP15, UTP18,
WAIT1, WDF3, WDFY1, WDFY2, WDFY3, WDFY4, WDHD1, WDR1, WDR10, WDR12, WDR13, WDR16, WDR17, WDR18, WDR19, WDR20, WDR21A, WDR21C, WDR22, WDR23, WDR24, WDR25, WDR26, WDR27, WDR3, WDR31, WDR32, WDR33, WDR34, WDR35, WDR36, WDR37, WDR38, WDR4, WDR40A, WDR40B, WDR40C, WDR41, WDR42A, WDR42B, WDR43, WDR44, WDR46, WDR47, WDR48, WDR49, WDR5, WDR51A, WDR51B, WDR52, WDR53, WDR54, WDR55, WDR57, WDR59, WDR5B, WDR6, WDR60, WDR61, WDR62, WDR63, WDR64, WDR65, WDR66, WDR67, WDR68, WDR69, WDR7, WDR70, WDR72, WDR73, WDR74, WDR75, WDR76, WDR77, WDR78, WDR79, WDR8, WDR81, WDR82, WDR85, WDR86, WDR88, WDR89, WDR90, WDR91, WDR92, WDSOF1, WDSUB1, WDTC1, WSB1, WSB2,
ZFP106

Human WDR genes and associated diseases
WDR gene	other gene names	NCBI Entrez Gene ID	Human disease associated with mutations
WDR1	AIP1; NORI-1; HEL-S-52	9948
WDR2	CORO2A; IR10; CLIPINB	7464
WDR3	DIP2; UTP12	10885
WDR4	TRM82; TRMT82	10785
WDR5	SWD3; BIG-3; CFAP89	11091
WDR6		11180
WDR7	TRAG; KIAA0541; Rabconnectin 3 beta	23335
WDR8	WRAP73	49856
WDR9	BRWD1; N143; C21orf107	54014
WDR10	IFT122; CED; SPG; CED1; WDR10p; WDR140	55764	Sensenbrenner syndrome
WDR11	DR11; HH14; BRWD2; WDR15	55717	Kallmann syndrome
WDR12	YTM1	55759
WDR13	MG21	64743
WDR14	GNB1L; GY2; FKSG1; WDVCF; DGCRK3	54584
WDR15	WDR11
WDR16	CFAP52; WDRPUH	146845
WDR17		116966
WDR18	Ipi3	57418
WDR19	ATD5; CED4; DYF-2; ORF26; Oseg6; PWDMP; SRTD5; IFT144; NPHP13	57728	Sensenbrenner syndrome, Jeune syndrome
WDR20	DMR	91833
WDR21	DCAF4; WDR21A	26094
WDR22	DCAF5; BCRG2; BCRP2	8816
WDR23	DCAF11; GL014; PRO2389	80344
WDR24	JFP7; C16orf21	84219
WDR25	C14orf67	79446
WDR26	CDW2; GID7; MIP2	80232
WDR27		253769
WDR28	GRWD1; CDW4; GRWD; RRB1	83743
WDR29	SPAG16; PF20	79582
WDR30	ATG16L1; IBD10; APG16L; ATG16A; ATG16L	55054	Crohn’s disease
WDR31		114987
WDR32	DCAF10	79269
WDR33	NET14; WDC146	55339
WDR34	DIC5; FAP133; SRTD11	89891	Jeune syndrome
WDR35	CED2; IFTA1; SRTD7; IFT121	57539	Sensenbrenner syndrome
WDR36	GLC1G; UTP21; TAWDRP; TA-WDRP	134430	Primary Open Angle Glaucoma
WDR37		22884
WDR38		401551
WDR39	CIAO1; CIA1	9391
WDR40A	DCAF12; CT102; TCC52; KIAA1892	25853
WDR41	MSTP048	55255
WDR43	UTP5; NET12	23160
WDR44	RPH11; RAB11BP	54521
WDR45	JM5; NBIA4; NBIA5; WDRX1; WIPI4; WIPI-4	11152
WDR46	UTP7; BING4; FP221; C6orf11	9277
WDR47	NEMITIN; KIAA0893	22911
WDR48	P80; UAF1; SPG60	57599
WDR49		151790
WDR50	UTP18; CGI-48	51096
WDR52	CFAP44	55779
WDR53		348793
WDR54		84058
WDR55		54853
WDR56	IFT80; ATD2; SRTD2	57560	Jeune syndrome
WDR57	SNRNP40; SPF38; PRP8BP; HPRP8BP; PRPF8BP	9410
WDR58	THOC6; BBIS; fSAP35	79228
WDR59	FP977	79726
WDR60	SRPS6; SRTD8; FAP163	55112	Jeune syndrome
WDR61	SKI8; REC14	80349
WDR62	MCPH2; C19orf14	284403	microcephaly
WDR63	DIC3; NYD-SP29	126820
WDR64		128025
WDR65	CFAP57; VWS2	149465	Van der Woude syndrome
WDR66	CaM-IP4	144406
WDR67	TBC1D31; Gm85	93594
WDR68	DCAF7; AN11; HAN11; SWAN-1	10238
WDR69	DAW1; ODA16	164781
WDR70		55100
WDR71	PAAF1; PAAF; Rpn14	80227
WDR72	AI2A3	256764	Amelogenesis imperfecta
WDR73	HSPC264	84942
WDR74		54663
WDR75	NET16; UTP17	84128
WDR76	CDW14	79968
WDR77	p44; MEP50; MEP-50; HKMT1069; Nbla10071; p44/Mep50	79084
WDR78	DIC4	79819
WDR79	WRAP53; DKCB3; TCAB1	55135
WDR80	ATG16L; ATG16B	89849
WDR81	CAMRQ2; PPP1R166	124997	cerebellar ataxia, mental retardation, and dysequilibrium syndrome-2
WDR82	SWD2; MST107; WDR82A; MSTP107; PRO2730; TMEM113; PRO34047	80335
WDR83	MORG1	84292
WDR84	PAK1IP1; PIP1; MAK11	55003
WDR85	DPH7; RRT2; C9orf112	92715
WDR86		349136
WDR87	NYD-SP11	83889
WDR88	PQWD	126248
WDR89	MSTP050; C14orf150	112840
WDR90	C16orf15; C16orf16; C16orf17; C16orf18; C16orf19	197335
WDR91	HSPC049	29062
WDR92	MONAD	116143
WDR93		56964
WDR94	AMBRA1; DCAF3	55626
WDR96	CFAP43; C10orf79	80217

References

↑ PDB: 1erj; Sprague ER, Redd MJ, Johnson AD, Wolberger C (June 2000). "Structure of the C-terminal domain of Tup1, a corepressor of transcription in yeast". EMBO J. 19 (12): 3016–27. doi:10.1093/emboj/19.12.3016. PMC 203344. PMID 10856245.
↑ Neer EJ, Schmidt CJ, Nambudripad R, Smith TF (September 1994). "The ancient regulatory-protein family of WD-repeat proteins". Nature. 371 (6495): 297–300. doi:10.1038/371297a0. PMID 8090199.
1 2 Smith TF, Gaitatzes C, Saxena K, Neer EJ (May 1999). "The WD40 repeat: a common architecture for diverse functions". Trends Biochem. Sci. 24 (5): 181–5. doi:10.1016/S0968-0004(99)01384-5. PMID 10322433.
1 2 Li D, Roberts R (December 2001). "WD-repeat proteins: structure characteristics, biological function, and their involvement in human diseases". Cell. Mol. Life Sci. 58 (14): 2085–97. doi:10.1007/PL00000838. PMID 11814058.
↑ Stirnimann CU, Petsalaki E, Russell RB, Müller CW (May 2010). "WD40 proteins propel cellular networks.". Trends Biochem. Sci. 35 (10): 565–74. doi:10.1016/j.tibs.2010.04.003. PMID 20451393.
↑ Lander ES, Linton LM, Birren B, et al. (February 2001). "Initial sequencing and analysis of the human genome". Nature. 409 (6822): 860–921. doi:10.1038/35057062. PMID 11237011.

External links

Eukaryotic Linear Motif resource motif class LIG_APCC_Dbox_1
Eukaryotic Linear Motif resource motif class LIG_APCC_KENbox_2
Eukaryotic Linear Motif resource motif class LIG_COP1
Eukaryotic Linear Motif resource motif class LIG_CRL4_Cdt2_1
Eukaryotic Linear Motif resource motif class LIG_CRL4_Cdt2_2
Eukaryotic Linear Motif resource motif class LIG_EH1_1
Eukaryotic Linear Motif resource motif class LIG_GLEBS_BUB3_1
Eukaryotic Linear Motif resource motif class LIG_RAPTOR_TOS_1
Eukaryotic Linear Motif resource motif class LIG_SCF_FBW7_1
Eukaryotic Linear Motif resource motif class LIG_SCF_FBW7_2
Eukaryotic Linear Motif resource motif class LIG_SCF-TrCP1_1
Eukaryotic Linear Motif resource motif class LIG_WRPW_1
Eukaryotic Linear Motif resource motif class LIG_WRPW_2
Eukaryotic Linear Motif resource motif class TRG_ER_diArg_1
Eukaryotic Linear Motif resource motif class TRG_ER_diLys_1
Eukaryotic Linear Motif resource motif class TRG_Golgi_diPhe_1
Eukaryotic Linear Motif resource motif class TRG_PTS2

Protein domains

BAR BIR BZIP CARD C1 C2 DED ENTH FYVE HEAT Kringle LIM LRR NACHT PAS PDZ Pyrin PH PX SH2 SH3 SUN TRIO WD40 zinc finger

This article incorporates text from the public domain Pfam and InterPro IPR001680

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