EC               Enzyme                                 

rhomboid protease
Acting on peptide bonds (peptidases);
Serine endopeptidases
BRITE hierarchy
Cleaves type-1 transmembrane domains using a catalytic dyad composed of serine and histidine that are contributed by different transmembrane domains
These endopeptidases are multi-spanning membrane proteins. Their catalytic site is embedded within the membrane and they cleave type-1 transmembrane domains. A catalytic dyad is involved in proteolysis rather than a catalytic triad, as was thought previously [14]. They are important for embryo development in Drosophila melanogaster. Rhomboid is a key regulator of EGF receptor signalling and is responsible for cleaving Spitz, the main ligand of the Drosophila EGF receptor pathway. Belongs in peptidase family S54. Parasite-encoded rhomboid enzymes are also important for invasion of host cells by Toxoplasma and the malaria parasite. Rhomboids are widely conserved from bacteria to archaea to humans [9,13].
EC created 2005
K02857  rhomboid-related protein 1/2/3
K09650  rhomboid-like protein
K19225  rhomboid protease GluP
HSA: 162494(RHBDL3) 54933(RHBDL2) 55486(PARL) 9028(RHBDL1)
PTR: 453801(RHBDL1) 456773(RHBDL2) 460877(PARL) 747914(RHBDL3)
PPS: 100972422(RHBDL1) 100981191(PARL) 100991726(RHBDL2) 100995298(RHBDL3)
GGO: 101129399(RHBDL1) 101136818(PARL) 101140065(RHBDL2) 101145550(RHBDL3)
PON: 100173771(PARL) 100442110(RHBDL1) 100450187(RHBDL3) 100452148(RHBDL2)
NLE: 100591442(RHBDL1) 100595259(RHBDL3) 100601797(PARL) 100602665(RHBDL2)
MCC: 704652(PARL) 713926(RHBDL3) 715695(RHBDL2) 722357(RHBDL1)
MCF: 101926657(PARL) 102115426(RHBDL2) 102122957(RHBDL3) 102125336(RHBDL1)
CSAB: 103221155(PARL) 103225071(RHBDL2) 103225592(RHBDL1) 103242692(RHBDL3)
RRO: 104653641(RHBDL2) 104664642(PARL) 104669334(RHBDL3) 104681174(RHBDL1)
RBB: 108518006(RHBDL2) 108519442(RHBDL1) 108521059(PARL) 108541374(RHBDL3)
CJC: 100387112(RHBDL3) 100396196(RHBDL2) 100396223(RHBDL1) 100412777(MAP6D1)
SBQ: 101037572(PARL) 101038537(RHBDL1) 101045295(RHBDL2) 101048766(RHBDL3)
MMU: 214951(Rhbdl1) 230726(Rhbdl2) 246104(Rhbdl3) 381038(Parl)
RNO: 117025(Rhbdl1) 287556(Rhbdl3) 287979(Parl) 298512(Rhbdl2)
CGE: 100751882(Parl) 100770158(Rhbdl2) 100771192(Rhbdl1) 100772788(Rhbdl3)
NGI: 103732644(Parl) 103746081(Rhbdl3) 103747709(Rhbdl2) 103752390(Rhbdl1)
HGL: 101700571(Rhbdl1) 101707842(Rhbdl2) 101719514(Parl) 101721490(Rhbdl3)
CCAN: 109679607(Rhbdl2) 109683330(Rhbdl3) 109694101(Parl) 109694512(Rhbdl1) 109701956 109701958
OCU: 100342968(RHBDL2) 100351338(PARL) 100353868(RHBDL3)
TUP: 102469095(RHBDL1) 102479636(RHBDL2) 102499708(PARL) 102499910(RHBDL3)
CFA: 482466(RHBDL2) 488100(PARL) 490092(RHBDL1) 491155(RHBDL3)
AML: 100474967(RHBDL1) 100475380(PARL) 100478612(RHBDL2) 100484664(RHBDL3)
UMR: 103666358(RHBDL2) 103667429(RHBDL3) 103668457(RHBDL1) 103676189(PARL)
ORO: 101369430(RHBDL2) 101374105(RHBDL3) 101379039(RHBDL1) 101382637(PARL)
FCA: 101091042(PARL) 101093071(RHBDL1) 101094436(RHBDL2) 101094637(RHBDL3)
PTG: 102953926(RHBDL1) 102966303(RHBDL2) 102969628(RHBDL3) 102969917(PARL)
AJU: 106967349(PARL) 106973271(RHBDL2) 106977336(RHBDL1) 106985245(RHBDL3)
BTA: 100336895(RHBDL1) 514191(PARL) 514943(RHBDL2) 535623(RHBDL3)
BOM: 102267300(RHBDL3) 102279965(RHBDL1) 102282409(RHBDL2) 102282701(PARL)
BIU: 109556912(RHBDL2) 109557532(PARL) 109573185(RHBDL3) 109578340(RHBDL1)
PHD: 102324723(PARL) 102330979(RHBDL2) 102339958(RHBDL3) 102341809(RHBDL1)
CHX: 102170845(RHBDL2) 102173434(RHBDL1) 102186804(PARL) 102187708(RHBDL3)
OAS: 101102026(PARL) 101110639(RHBDL1) 101115635(RHBDL3) 101117975(RHBDL2) 105605793
SSC: 100514296(RHBDL2) 100522032(RHBDL3) 100739380(PARL) 102164926(RHBDL1)
CFR: 102508789(RHBDL1) 102513177(RHBDL3) 102515444(PARL) 102522404(RHBDL2)
CDK: 105085895(PARL) 105088219(RHBDL3) 105090970(RHBDL2) 105098438(RHBDL1)
BACU: 102997324(RHBDL1) 103010626(RHBDL3) 103012865(PARL) 103013581 103015879(RHBDL2)
LVE: 103080294(RHBDL1) 103080823(PARL) 103090747(RHBDL2) 103091370(RHBDL3)
OOR: 101286435(RHBDL3) 101289466(RHBDL2) 101290127(RHBDL1) 101290324(PARL)
ECB: 100058851(PARL) 100066958(RHBDL1) 100068889(RHBDL2) 100071775(RHBDL3)
EPZ: 103542974(RHBDL1) 103551231(RHBDL2) 103551829(RHBDL3) 103554759(PARL)
EAI: 106830573(RHBDL2) 106834531(PARL) 106836175(RHBDL1) 106844618(RHBDL3)
MYB: 102241382(RHBDL3) 102246769(PARL) 102248737(RHBDL2) 102254499(RHBDL1)
MYD: 102757308(RHBDL2) 102765700(RHBDL1) 102774042(PARL) 102774862(RHBDL3)
HAI: 109371269(PARL) 109385165(RHBDL3) 109385880(RHBDL1) 109390954(RHBDL2)
RSS: 109444869(RHBDL2) 109449523(PARL) 109457658(RHBDL3) 109460622(RHBDL1)
PALE: 102885710(RHBDL3) 102894455(PARL) 102895339(RHBDL1) 102897150(RHBDL2)
LAV: 100653587(RHBDL1) 100657744(RHBDL2) 100660204(PARL) 100665813(RHBDL3)
MDO: 100016926(RHBDL1) 100018675(RHBDL3) 100027636(PARL) 100031939(RHBDL2)
SHR: 100921266(RHBDL3) 100926501(PARL) 100930684(RHBDL1) 100932354(RHBDL2)
OAA: 100078408(PARL) 100082184(RHBDL2) 100087354(RHBDL1) 100089671(RHBDL3)
GGA: 417411(RHBDL3) 424767(PARL) 429205(RHBDL1)
MGP: 100544045(RHBDL3) 100544454(PARL) 100546725(RHBDL1)
CJO: 107317817(PARL) 107320910(RHBDL1) 107322155(RHBDL3)
APLA: 101792169(RHBDL3) 101803884(PARL) 106020203(RHBDL1)
ACYG: 106034754(RHBDL3) 106039200(PARL)
TGU: 100190158(PARL) 100219547 100221056(RHBDL3)
GFR: 102042149(RHBDL3) 102042645(PARL)
FAB: 101812184(RHBDL1) 101814172(PARL) 101816853(RHBDL3)
PHI: 102100139(RHBDL3) 102100599(RHBDL1) 102108104(PARL)
PMAJ: 107208963(PARL) 107210962(RHBDL1) 107212561(RHBDL3)
CCW: 104693060(PARL) 104694250(RHBDL3)
FPG: 101910681(PARL) 101916424(RHBDL3) 106112721(RHBDL1)
FCH: 102050957(RHBDL1) 102055499(RHBDL3) 102059074(PARL)
CLV: 102085794(RHBDL3) 102087133(PARL) 102094909(RHBDL1)
EGZ: 104123756(RHBDL3) 104135493(PARL)
AAM: 106484745(PARL) 106493114(RHBDL3)
ASN: 102368004(RHBDL3) 102375886(RHBDL2) 102376993(PARL) 102377147(RHBDL1)
AMJ: 102569235(PARL) 102572703(RHBDL1) 102572803(RHBDL3) 102573319(RHBDL2)
PSS: 102448376(RHBDL2) 102448490(PARL) 102454812(RHBDL1) 102462839(RHBDL3)
CMY: 102932324(RHBDL2) 102942181(PARL) 102943255(RHBDL1) 102945614(RHBDL3)
CPIC: 101932732(PARL) 101932755(RHBDL2) 101949096(RHBDL1) 101951639(RHBDL3)
ACS: 100552010(rhbdl3) 100553171(parl) 100556273(rhbdl2) 100556287 103281783(rhbdl1)
PVT: 110073840(RHBDL3) 110082751(RHBDL2) 110084041(PARL) 110089424(RHBDL1)
PBI: 103050233(RHBDL1) 103052191(PARL) 103053550 103063065(RHBDL2)
GJA: 107108690(RHBDL2) 107117310(RHBDL1) 107121725(RHBDL3) 107124094(PARL)
XLA: 108701217 108701693 108704657(rhbdl2.S) 108708122 444640(rhbdl1.S) 495156(rhbdl2.L)
XTR: 100036610(parl) 101732375 549275(rhbdl2)
NPR: 108790110(RHBDL2) 108799529(RHBDL1) 108801895 108804886(PARL)
DRE: 100887821(rhbdl1) 541485(parla) 550128(rhbdl3) 792002(rhbdl2) 792889(parl)
IPU: 108262806(rhbdl1) 108272931(rhbdl3) 108277433(parl) 108280367
AMEX: 103025472(parl) 103026852(rhbdl1) 103027172 103036677(rhbdl2) 103039963(rhbdl3)
TRU: 101066388 101069435(rhbdl2) 101070725(rhbdl1) 101076161 101079532(rhbdl3)
LCO: 104919692(rhbdl1) 104924720(rhbdl2) 104929841(rhbdl3) 104933382 104936814
NCC: 104941896(rhbdl2) 104946346(rhbdl1) 104947982(rhbdl3) 104951470(parl)
MZE: 101467219(rhbdl1) 101469142 101471225 101484197(rhbdl3) 101485896(rhbdl2)
OLA: 101155323(parl) 101157837(rhbdl3) 101162960(rhbdl1) 101173974 101175267(rhbdl2)
XMA: 102220748(rhbdl1) 102221859 102232512(rhbdl2) 102234504(rhbdl3) 102237666
PRET: 103468056(rhbdl3) 103475301(parl) 103477786(rhbdl2) 103479407 103481079(rhbdl1)
NFU: 107379334(rhbdl2) 107379887(parl) 107382321(rhbdl3) 107384009 107388048(rhbdl1)
CSEM: 103378338(parl) 103381702(rhbdl1) 103383613(rhbdl3) 103387918(rhbdl2)
HCQ: 109510735(parl) 109511186(rhbdl3) 109515419(rhbdl2) 109516844 109530205(rhbdl1)
BPEC: 110158798 110158822 110159797(rhbdl1) 110172660(rhbdl3) 110174331(rhbdl2) 110174766
ELS: 105006886 105007687 105019293(rhbdl2) 105021283(rhbdl1) 105029033(rhbdl3)
SFM: 108919105(rhbdl2) 108923855(rhbdl1) 108926825(parl) 108940046(rhbdl3)
LCM: 102345090(PARL) 102357284(RHBDL1) 102357617(RHBDL3) 102365369(RHBDL2)
CMK: 103186052(rhbdl1) 103186427(parl) 103191477
DME: Dmel_CG1004(rho) Dmel_CG1214(ru) Dmel_CG1697(rho-4) Dmel_CG33166(stet) Dmel_CG8972(rho-7)
DSI: Dsimw501_GD13615(Dsim_GD13615) Dsimw501_GD13619(Dsim_GD13619) Dsimw501_GD17034(Dsim_GD17034) Dsimw501_GD25869(Dsim_GD25869) Dsimw501_GD26881(Dsim_GD26881)
AME: 412194(rho-7) 412319 726936
TCA: 657740(stet) 661151 661276 663099(rho-4)
CEL: CELE_C48B4.2(rom-2) CELE_F26F4.3(rom-1) CELE_Y54E10A.14(rom-5)
CBR: CBG10042(Cbr-rom-2) CBG14977(Cbr-rom-5) CBG18183(Cbr-rom-1)
EPA: 110246136
HMG: 100197728
AQU: 105315300
HBR: 110653878
BVG: 104902064
ERC: Ecym_4420
KMX: KLMA_50443(PCP1)
NCS: NCAS_0E01050(NCAS0E01050)
NDI: NDAI_0G01180(NDAI0G01180)
TPF: TPHA_0D03000(TPHA0D03000)
TBL: TBLA_0E00580(TBLA0E00580)
TDL: TDEL_0F03280(TDEL0F03280)
KAF: KAFR_0K01640(KAFR0K01640)
CAL: CAALFM_C302030WA(CaO19.1643)
CAUR: QG37_02591
SLB: AWJ20_4032(PCP1)
NCR: NCU03080
MGR: MGG_04531
MAW: MAC_03768
MAJ: MAA_04245
CMT: CCM_05958
ANI: AN1372.2
ANG: ANI_1_82074(An08g00670)
ABE: ARB_08031
TVE: TRV_04346
CNE: CNG04190
MGL: MGL_1969
DFA: DFA_08225
SMIN: v1.2.028034.t1(symbB.v1.2.028034.t1) v1.2.037180.t1(symbB.v1.2.037180.t1)
SPAR: SPRG_20100
MMK: MU9_1476
HCH: HCH_03410
RSO: RSp1525
RSE: F504_4997
RME: Rmet_3861
BGU: KS03_807
BGO: BM43_1280
ODI: ODI_R2291
MFA: Mfla_1842
MEH: M301_1965
DAR: Daro_2385
GME: Gmet_2385
GEB: GM18_3916
DEU: DBW_1342
DSF: UWK_00417
SAT: SYN_01026
BBAT: Bdt_2373
MSC: BN69_0387
BSU: BSU24870(glpG)
BSR: I33_2569
BSL: A7A1_3554
BSH: BSU6051_24870(glpG)
BSUT: BSUB_02664(glpG)
BSUL: BSUA_02664(glpG)
BSUS: Q433_13610
BSS: BSUW23_12330(glpG)
BST: GYO_2752
BSO: BSNT_08929(yqgP)
BSQ: B657_24870(glpG)
BSX: C663_2371
BLI: BL03719(gluP)
BLD: BLi02664(yggP)
BLH: BaLi_c27450(gluP)
BATR: TD68_09845
BHA: BH1421
BCL: ABC1726
BPU: BPUM_2217
BPUM: BW16_12010
BPUS: UP12_11260
BMQ: BMQ_4503(glpG)
BMD: BMD_4489(glpG)
BMH: BMWSH_0732(yqgP)
BMEG: BG04_1495
BAG: Bcoa_2807
BCOA: BF29_755
BJS: MY9_2511
BACW: QR42_11205
BACO: OXB_0477
BACY: QF06_10630
BACL: BS34A_27280(glpG)
BALM: BsLM_2445
BEO: BEH_19800
BGY: BGLY_2940
BKW: BkAM31D_05720(gluP_2)
BBEV: BBEV_1267(gluP)
OIH: OB1923
GKA: GK2446
GTN: GTNG_2385
GEA: GARCT_02427(gluP_2)
AFL: Aflv_0891
AAMY: GFC30_2641
AXL: AXY_07440
HHD: HBHAL_3523(yqgP)
VPN: A21D_03231(gluP_2)
BSE: Bsel_2310
SAU: SA1379
SAV: SAV1549
SAW: SAHV_1536
SAM: MW1501
SAS: SAS1487
SAR: SAR1626
SAE: NWMN_1452
SAD: SAAV_1541
SUE: SAOV_1549
SUJ: SAA6159_01484(gluP)
SUK: SAA6008_01518(gluP)
SUZ: MS7_1566
SAUA: SAAG_01463
SAUS: SA40_1420
SAUU: SA957_1503
SAUG: SA268_1507
SAUF: X998_1574
SAB: SAB1421c
SAUB: C248_1592
SAUC: CA347_1545
SAUR: SABB_00470
SAUI: AZ30_07895
SAUD: CH52_11325
SAMS: NI36_08355
SEP: SE1235
SEPP: SEB_01255
SEPS: DP17_193
SHA: SH1367
SHH: ShL2_01250(gluP)
SSP: SSP1207
SCA: SCA_1171
SDT: SPSE_1248
SPAS: STP1_0126
SHU: SHYC_06835(gluP)
SCAP: AYP1020_0847(gluP)
SSCH: LH95_06040
SSCZ: RN70_06220
SAGQ: EP23_03580
MCL: MCCL_1192
MCAK: MCCS_14770(gluP)
LMO: lmo1337
LMOE: BN418_1576
LMOB: BN419_1570
LMOW: AX10_00760
LMOM: IJ09_03325
LMP: MUO_06905
LMOX: AX24_04140
LMQ: LMM7_1422
LMS: LMLG_1920
LMOK: CQ02_06875
LIN: lin1374
LWE: lwe1352
LSG: lse_1253
LIV: LIV_1288
PSAB: PSAB_09765
PRI: PRIO_2558
ASOC: CB4_01514(gluP)
AAD: TC41_2338
LPL: lp_1571
LPJ: JDM1_1316
LPZ: Lp16_1192
LJO: LJ_1618
LJH: LJP_1358c
LAC: LBA1506
LAD: LA14_1500
LAF: SD55_1480
LSL: LSL_0550
LSI: HN6_00497
LSJ: LSJ_0595
LDB: Ldb1479
LBU: LBUL_1374
LDL: LBU_1267
LBR: LVIS_0998
LCA: LSEI_1661
LCB: LCABL_18770(yqgP)
LCE: LC2W_1835
LGA: LGAS_1384
LRE: Lreu_1208
LRF: LAR_1141
LRT: LRI_0762
LHE: lhv_1567
LHL: LBHH_0606
LHV: lhe_1453
LHH: LBH_1309
LHD: HUO_04240
LFE: LAF_1281
LFF: LBFF_1394
LRH: LGG_01705
LRG: LRHM_1641
LRA: LRHK_1677
LAM: LA2_08440
LBH: Lbuc_1167
LKE: WANG_0278
LRM: LRC_12370
LSN: LSA_06440
LAE: LBAT_0572
PPE: PEPE_0730
PPEN: T256_03870
PCE: PECL_1103
EFA: EF2790
EFL: EF62_2942
EFS: EFS1_2253
EFQ: DR75_1481
ENE: ENT_19560
EFM: M7W_1166
EHR: EHR_10090
ECAS: ECBG_01850
EMU: EMQU_1729
EDU: LIU_09940
MPS: MPTP_0601
THL: TEH_19890
LME: LEUM_0674
LMM: MI1_03060
LMK: LMES_0600
LCI: LCK_01146
LKI: LKI_08900
LGS: LEGAS_0752(glpP)
WCE: WS08_0997
WCT: WS74_1063
CRN: CAR_c13220(glpG)
CML: BN424_2049(gluP)
CARC: NY10_687
JDA: BW727_100604(gluP)
CAC: CA_C0954
CAE: SMB_G0971(gluP)
CAY: CEA_G0966
CPE: CPE1452
CPF: CPF_1705
CPR: CPR_1438
CTC: CTC_00530
CBO: CBO0398
CBY: CLM_0468
CBL: CLK_3588
CBK: CLL_A0777
CBB: CLD_0351
CBI: CLJ_B0456
CBN: CbC4_0744
CBT: CLH_0743
CBF: CLI_0473
CBM: CBF_0444
CBE: Cbei_4326
CBZ: Cbs_4326
CBEI: LF65_04849
CKL: CKL_2722
CKR: CKR_2416
CSR: Cspa_c40870(gluP1) Cspa_c46070(gluP2)
CPAS: Clopa_3971
CSB: CLSA_c39990(gluP)
CBV: U729_109
CSQ: CSCA_3699
CTYK: CTK_C06420
CTH: Cthe_1048
CCE: Ccel_1860
HSC: HVS_13290(gluP)
BFI: CIY_28860
RIX: RO1_32130
RIM: ROI_34840
COO: CCU_19090
CCT: CC1_12330
ROB: CK5_02110
RTO: RTO_02300
BPRL: CL2_01890
HSD: SD1D_0053
CPRO: CPRO_29880(gluP)
DSY: DSY1625
DHD: Dhaf_2772
SGY: Sgly_1786
EHL: EHLA_3226
BPRS: CK3_08240
APR: Apre_0056
LPIL: LIP_1494
ABRA: BN85311620
APAL: BN85411490
SMIR: SMM_0701
SMIA: P344_04210
MBJ: KQ51_00751(gluP)
CUR: cu0051
BTP: D805_1619
GPA: GPA_30260
RCA: Rcas_1097
CAU: Caur_0757
CAG: Cagg_2850
HAU: Haur_3513
OTE: Oter_2194
PLH: VT85_02370(gluP_2) VT85_19075(gluP_5) VT85_19585(gluP_6)
TTF: THTE_2742
GES: VT84_37865(gluP_2)
IPA: Isop_1315
PBOR: BSF38_02455(gluP_3) BSF38_04440(gluP_5)
LIE: LIF_A0775(glpG)
SUS: Acid_0319
ABAC: LuPra_01410(gluP_1)
BTH: BT_1807
BTHO: Btheta7330_01204(aarA_2)
BXY: BXY_14590
BOA: Bovatus_01862(aarA_1)
PHE: Phep_0482
MGOT: MgSA37_01611(gluP)
FAE: FAES_4812(glpG)
HSW: Hsw_1020
CHER: DK880_00823(gluP)
MARM: YQ22_04295
TAF: THA_1375
PYS: Py04_1384
THE: GQS_10345
THA: TAM4_1542
THM: CL1_1648
KCR: Kcr_0205
BARB: AOA66_0232
 » show all
1  [PMID:15684070]
Urban S, Wolfe MS.
Reconstitution of intramembrane proteolysis in vitro reveals that pure rhomboid is sufficient for catalysis and specificity.
Proc Natl Acad Sci U S A 102:1883-8 (2005)
2  [PMID:15753289]
Brossier F, Jewett TJ, Sibley LD, Urban S.
A spatially localized rhomboid protease cleaves cell surface adhesins essential for invasion by Toxoplasma.
Proc Natl Acad Sci U S A 102:4146-51 (2005)
3  [PMID:15096522]
Herlan M, Bornhovd C, Hell K, Neupert W, Reichert AS.
Alternative topogenesis of Mgm1 and mitochondrial morphology depend on ATP and a functional import motor.
J Cell Biol 165:167-73 (2004)
4  [PMID:15047175]
Pascall JC, Brown KD.
Intramembrane cleavage of ephrinB3 by the human rhomboid family protease, RHBDL2.
Biochem Biophys Res Commun 317:244-52 (2004)
5  [PMID:14732705]
Sik A, Passer BJ, Koonin EV, Pellegrini L.
Self-regulated cleavage of the mitochondrial intramembrane-cleaving protease PARL yields Pbeta, a nuclear-targeted peptide.
J Biol Chem 279:15323-9 (2004)
6  [PMID:12820957]
Urban S, Freeman M.
Substrate specificity of rhomboid intramembrane proteases is governed by helix-breaking residues in the substrate transmembrane domain.
Mol Cell 11:1425-34 (2003)
7  [PMID:12707284]
Herlan M, Vogel F, Bornhovd C, Neupert W, Reichert AS.
Processing of Mgm1 by the rhomboid-type protease Pcp1 is required for maintenance of mitochondrial morphology and of mitochondrial DNA.
J Biol Chem 278:27781-8 (2003)
8  [PMID:12774122]
McQuibban GA, Saurya S, Freeman M.
Mitochondrial membrane remodelling regulated by a conserved rhomboid protease.
Nature 423:537-41 (2003)
9  [PMID:12620104]
Koonin EV, Makarova KS, Rogozin IB, Davidovic L, Letellier MC, Pellegrini L.
The rhomboids: a nearly ubiquitous family of intramembrane serine proteases that probably evolved by multiple ancient horizontal gene transfers.
Genome Biol 4:R19 (2003)
10 [PMID:12200155]
Urban S, Freeman M.
Intramembrane proteolysis controls diverse signalling pathways throughout evolution.
Curr Opin Genet Dev 12:512-8 (2002)
11 [PMID:12225666]
Urban S, Schlieper D, Freeman M.
Conservation of intramembrane proteolytic activity and substrate specificity in prokaryotic and eukaryotic rhomboids.
Curr Biol 12:1507-12 (2002)
12 [PMID:12169630]
Urban S, Lee JR, Freeman M.
A family of Rhomboid intramembrane proteases activates all Drosophila membrane-tethered EGF ligands.
EMBO J 21:4277-86 (2002)
13 [PMID:11672525]
Urban S, Lee JR, Freeman M.
Drosophila rhomboid-1 defines a family of putative intramembrane serine proteases.
Cell 107:173-82 (2001)
14 [PMID:15616571]
Lemberg MK, Menendez J, Misik A, Garcia M, Koth CM, Freeman M.
Mechanism of intramembrane proteolysis investigated with purified rhomboid proteases.
EMBO J 24:464-72 (2005)
15 [PMID:17051161]
Wang Y, Zhang Y, Ha Y.
Crystal structure of a rhomboid family intramembrane protease.
Nature 444:179-80 (2006)
Other DBs
ExplorEnz - The Enzyme Database:
IUBMB Enzyme Nomenclature:
ExPASy - ENZYME nomenclature database:
BRENDA, the Enzyme Database:
CAS: 713145-02-9

DBGET integrated database retrieval system