首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 15 毫秒
1.
Factor B is a key component of the alternative pathway of complement and is cleaved by factor D into the Ba and Bb fragments in the presence of activated C3 (C3b or C3(H(2)O)). The Ba fragment contains three short consensus/complement repeat domains, while the Bb fragment contains a von Willebrand factor type A (vWF-A) domain and a serine protease (SP) domain, all three of which are implicated in multisite contacts with C3. The upfield-shifted signals in the (1)H NMR spectra of factor B, the Ba and Bb fragments, and the vWF-A and SP domains were used as sensitive conformational probes of their structures. Temperature studies and pH titrations showed that the Ba fragment and the vWF-A and SP domains had conformationally mobile structures. The comparison of the NMR spectra of the SP domains of both factor B and factor D showed that the factor D linewidths were broader than those for factor B, which may result from a range of proteolytically inactive conformations of factor D in the absence of substrate. The NMR spectra from the separate vWF-A and SP domains in combination with that of the Ba fragment generally accounted for that of intact factor B, apart from the perturbation of an upfield-shifted signal from the Ba fragment. A new upfield-shifted signal was observed in the Bb fragment that was not detected in the spectra for the vWF-A or SP domains or intact factor B. Ring current calculations based on homology models or crystal structures predicted that buried hydrophobic methyl-aromatic interactions probably accounted for the upfield-shifted signals, with many arising from the N-terminal subdomain of the SP domain to which the C terminus of the vWF-A domain is directly linked. It was concluded that: (1) the conformation of the free SP domain is better ordered in solution than that of factor D; (2) the conformation of the Ba fragment is affected by its incorporation into factor B; and (3) the proximity of the vWF-A and SP domains within the Bb fragment leads to a conformational change in which conserved charged residues may be important. Allosteric structural rearrangements in the SP domain as the result of its interactions with the vWF-A domain or the Ba fragment provide an explanation of the regulation of the catalytic activity of factor B.  相似文献   

2.
Factor B is a key component of the alternative pathway of the complement system. During complement activation, factor B complexed with activated C3 is cleaved into the Ba and Bb fragments by the protease factor D to form the C3 convertase from the complex between C3b and Bb. The Ba fragment contains three short consensus/complement repeat (SCR) domains, and the Bb fragment contains a von Willebrand factor type A (vWF-A) domain and a serine protease (SP) domain. Surface-enhanced laser desorption-ionization affinity mass spectrometry (SELDIAMS) was used to investigate the reaction of factor B with immobilised activated C3(NH3) in the presence of Mg(2+). A recombinant vWF-A domain (residues G229-Q448), the native Ba and Bb fragments and native factor B all demonstrated specific interactions with C3(NH3), while no interactions were detected using bovine serum albumin as a control. A mass analysis of the proteolysis of the vWF-A domain when this was bound to immobilised C3(NH3) identified two peptides (residues G229-K265 and T355-R381) that were involved with vWF-A binding to C3(NH3). A homology model for the vWF-A domain was constructed using the vWF-A crystal structure in complement receptor type 3. Comparisons with five different vWF-A crystal structures showed that large surface insertions were present close to the carboxyl and amino edges of the central beta-sheet of the factor B vWF-A structure. The peptides G229-K265 and T355-R381 corresponded to the two sides of the active site cleft at the carboxyl edge of the vWF-A structure. The vWF-A connections with the SCR and SP domains were close to the amino edge of this vWF-A beta-sheet, and shows that the vWF-A domain can be involved in both C3b binding and the regulation of factor B activity. These results show that (i) a major function of the vWF-A domain is to bind to activated C3 during the formation of the C3 convertase, which it does at its active site cleft; and that (ii) SELDIAMS provides an efficient means of identifying residues involved in protein-protein interactions.  相似文献   

3.
Factor B is a zymogen that carries the catalytic site of the complement alternative pathway convertases. During C3 convertase assembly, factor B associates with C3b and is cleaved at a single site by factor D. The Ba fragment is released, leaving the active complex, C3bBb. During the course of this process, the protease domain becomes activated. The type A domain of factor B, also part of Bb, is similar in structure to the type A domain of the complement receptor and integrin, CR3. Previously, mutations in the factor B type A domain were described that impair C3b-binding. This report describes "gain of function" mutations obtained by substituting factor B type A domain amino acids with homologous ones derived from the type A domain of CR3. Replacement of the betaA-alpha1 Mg2+ binding loop residue D254 with smaller amino acids, especially glycine, increased hemolytic activity and C3bBb stability. The removal of the oligosaccharide at position 260, near the Mg2+ binding cleft, when combined with the D254G substitution, resulted in increased affinity for C3b and iC3b, a C3b derivative. These findings offer strong evidence for the direct involvement of the type A domain in C3b binding, and are suggestive that steric effects of the D254 sidechain and the N260-linked oligosaccharide may contribute to the regulation of ligand binding.  相似文献   

4.
The C-terminal fragment, Bb, of factor B combines with C3b to form the pivotal C3-convertase, C3bBb, of alternative complement pathway. Bb consists of a von Willebrand factor type A (vWFA) domain that is structurally similar to the I domains of integrins and a serine protease (SP) domain that is in inactive conformation. The structure of the C3bBb complex would be important in deciphering the activation mechanism of the SP domain. However, C3bBb is labile and not amenable to X-ray diffraction studies. We engineered a disulfide bond in the vWFA domain of Bb homologous to that shown to lock I domains in active conformation. The crystal structures of Bb(C428-C435) and its inhibitor complexes reveal that the adoption of the "active" conformation by the vWFA domain is not sufficient to activate the C3-convertase catalytic apparatus and also provide insights into the possible mode of C3-convertase activation.  相似文献   

5.
The complement regulatory protein decay accelerating factor (DAF; CD55), inhibits the alternative complement pathway by accelerating decay of the convertase enzymes formed by C3b and factor B. We show, using surface plasmon resonance, that in the absence of Mg(2+), DAF binds C3b, factor B, and the Bb subunit with low affinity (K(D), 14 +/- 0.1, 44 +/- 10, and 20 +/- 7 microm, respectively). In the presence of Mg(2+), DAF bound Bb or the von Willebrand factor type A subunit of Bb with higher affinities (K(D), 1.3 +/- 0.5 and 2.2 +/- 0.1 microm, respectively). Interaction with the proenzyme C3bB was investigated by flowing factor B across a C3b-coated surface in the absence of factor D. The dissociation rate was dependent on the time of incubation, suggesting that a time-dependent conformational transition stabilized the C3b-factor B interaction. Activation by factor D (forming C3bBb) increased the complex half-life; however, the enzyme became susceptible to rapid decay by DAF, unlike the proenzyme, which was unaffected. A convertase assembled with cobra venom factor and Bb was decayed by DAF, albeit far less efficiently than C3bBb. DAF did not bind cobra venom factor, implying that Bb decay is accelerated, at least in part, through DAF binding of this subunit. It is likely that DAF binds the complex with higher affinity/avidity, promoting a conformational change in either or both subunits accelerating decay. Such analysis of component and regulator interactions will inform our understanding of inhibitory mechanisms and the ways in which regulatory proteins cooperate to control the complement cascade.  相似文献   

6.
The multi-domain serine protease C2 provides the catalytic activity for the C3 and C5- convertases of the classical and lectin pathways of complement activation. Formation of these convertases requires the Mg(2+)-dependent binding of C2 to C4b, and the subsequent cleavage of C2 by C1s or MASP2, respectively. The C-terminal fragment C2a consisting of a serine protease (SP) and a von Willebrand factor type A (vWFA) domain, remains attached to C4b, forming the C3 convertase, C4b2a. Here, we present the crystal structure of Mg(2+)-bound C2a to 1.9 A resolution in comparison to its homolog Bb, the catalytic subunit of the alternative pathway C3 convertase, C3bBb. Although the overall domain arrangement of C2a is similar to Bb, there are certain structural differences. Unexpectedly, the conformation of the metal ion-dependent adhesion site and the position of the alpha7 helix of the vWFA domain indicate a co-factor-bound or open conformation. The active site of the SP domain is in a zymogen-like inactive conformation. On the basis of these structural features, we suggest a model for the initial steps of C3 convertase assembly.  相似文献   

7.
The purposes of this study were to demonstrate the C3 convertase complex, C3b, Bb (EC 3.4.21.47), of the alternative pathway of complement by ultracentrifugation and to determine whether the metal ion required for enzyme formation is present in the active enzyme complex. It has been shown previously that C3b,Bb formed with Ni2+ rather than Mg2+ exhibits enhanced stability. Using sucrose density gradient ultracentrifugation, an enzymatically active C3b,Bb(Ni) complex could be demonstrated which has a sedimentation coefficient of 10.7 S and which is stable in 10 mM EDTA. Upon formation of the enzyme with the radioisotope 63Ni2+, the ultracentrifugal distribution of the metal correlated with that of the enzyme complex. The molar ratio of Ni to C3b,Bb was 1:1. Displacement of Ni by Mg during formation of the enzyme indicated that both metals may bind to the same site in the enzyme. Binding of 63Ni to the catalytic site bearing fragment Bb was significantly stronger than its binding to C3b or to the zymogen, Factor B. It is proposed that there is one metal-binding site in the C3b,Bb enzyme which is not susceptible to chelation by EDTA and which is located in the Bb subunit.  相似文献   

8.
Dynamic processes are inherent properties of proteins and are crucial for a wide range of biological functions. To address how changes in protein sequence and structure affect dynamic processes, a quantitative comparison of microsecond-to-microsecond time scale conformational changes, measured by solution NMR spectroscopy, within homologous mesophilic and thermophilic ribonuclease H (RNase H) enzymes is presented. Kinetic transitions between the observed major state (high population) and alternate (low population) conformational state(s) of the substrate-binding handle region in RNase H from the mesophile Escherichia coli (ecRNH) and thermophile Thermus thermophilus (ttRNH) occur with similar kinetic exchange rate constants, but the difference in stability between exchanging conformers is smaller in ttRNH compared to ecRNH. The altered thermodynamic equilibrium between kinetically exchanging conformers in the thermophile is recapitulated in ecRNH by the insertion of a Gly residue within a putative hinge between alpha-helices B and C. This Gly insertion is conserved among thermophilic RNases H, and allows the formation of additional intrahelical hydrogen bonds. A Gly residue inserted between alpha-helices B and C appears to relieve unfavorable interactions in the transition state and alternate conformer(s) and represents an important adaptation to adjust conformational changes within RNase H for activity at high temperatures.  相似文献   

9.
It has been well established that phosphorylation is an important reaction for the regulation of protein functions. In the N-terminal domain of the alpha-chain of pig gastric H(+)/K(+)-ATPase, reversible sequential phosphorylation occurs at Tyr 10 and Tyr 7. In this study, we determined the structure of the peptide involving the residues from Gly 2 to Gly 34 of pig gastric H(+)/K(+)-ATPase and investigated the tyrosine phosphorylation-induced conformational change using CD and NMR experiments. The solution structure showed that the N-terminal fragment has a helical conformation, and the peptide adopted two alpha-helices in 50% trifluoroethanol (TFE) solvent, suggesting that the peptide has a high helical propensity under hydrophobic conditions. Furthermore, the CD and NMR data suggested that the structure of the N-terminal fragment becomes more disordered as a result of phosphorylation of Tyr 10. This conformational change induced by the phosphorylation of Tyr 10 might be an advantageous reaction for sequential phosphorylation and may be important for regulating the function of H(+)/K(+)-ATPase.  相似文献   

10.
Finley NL  Howarth JW  Rosevear PR 《Biochemistry》2004,43(36):11371-11379
Cardiac troponin C (cTnC) is the Ca(2+)-binding component of the troponin complex and, as such, is the Ca(2+)-dependent switch in muscle contraction. This protein consists of two globular lobes, each containing a pair of EF-hand metal-binding sites, connected by a linker. In the N lobe, Ca(2+)-binding site I is inactive and Ca(2+)-binding site II is primarily responsible for initiation of muscle contraction. The C lobe contains Ca(2+)/Mg(2+)-binding sites III and IV, which bind Mg(2+) with lower affinity and play a structural as well as a secondary role in modulating the Ca(2+) signal. To understand the structural consequences of Ca(2+)/Mg(2+) exchange in the C lobe, we have determined the NMR solution structure of the Mg(2+)-loaded C lobe, cTnC(81-161), in a complex with the N domain of cardiac troponin I, cTnI(33-80), and compared it with a refined Ca(2+)-loaded structure. The overall tertiary structure of the Mg(2+)-loaded C lobe is very similar to that of the refined Ca(2+)-loaded structure as evidenced by the root-mean-square deviation of 0.94 A for all backbone atoms. While metal-dependent conformational changes are minimal, substitution of Mg(2+) for Ca(2+) is characterized by condensation of the C-terminal portion of the metal-binding loops with monodentate Mg(2+) ligation by the conserved Glu at position 12 and partial closure of the cTnI hydrophobic binding cleft around site IV. Thus, conformational plasticity in the Ca(2+)/Mg(2+)-dependent binding loops may represent a mechanism to modulate C-lobe cTnC interactions with the N domain of cTnI.  相似文献   

11.
Factor B(B) of the alternative complement pathway has been found to dimerize via disulfide bond(s) in the presence of CuCl2. Poly B has no B activity. The Bb fragment was also dimerized, indicating that one free sulfhydryl group on the Bb portion might be involved in polymerization. The Ba fragment was not dimerized. C3b, the major fragment of C3, has the capacity to stimulate polymerization of B. Incubation of C3b, B and factor D in the presence of Mg2+ and Cu2+ resulted in the formation of poly B and diminished cleavage of B. These results suggest that polymerization of B due to Cu2+ might be partly responsible for the impairment of C3 convertase activity of the alternative pathway.  相似文献   

12.
Glycoprotein Ib (GPIb) is a platelet receptor with a critical role in mediating the arrest of platelets at sites of vascular damage. GPIb binds to the A1 domain of von Willebrand factor (vWF-A1) at high blood shear, initiating platelet adhesion and contributing to the formation of a thrombus. To investigate the molecular basis of GPIb regulation and ligand binding, we have determined the structure of the N-terminal domain of the GPIb(alpha) chain (residues 1-279). This structure is the first determined from the cell adhesion/signaling class of leucine-rich repeat (LRR) proteins and reveals the topology of the characteristic disulfide-bonded flanking regions. The fold consists of an N-terminal beta-hairpin, eight leucine-rich repeats, a disulfide-bonded loop, and a C-terminal anionic region. The structure also demonstrates a novel LRR motif in the form of an M-shaped arrangement of three tandem beta-turns. Negatively charged binding surfaces on the LRR concave face and anionic region indicate two-step binding kinetics to vWF-A1, which can be regulated by an unmasking mechanism involving conformational change of a key loop. Using molecular docking of the GPIb and vWF-A1 crystal structures, we were also able to model the GPIb.vWF-A1 complex.  相似文献   

13.
Complement factor B is a 90 kDa protein consisting of three domains: a three-module complement control protein, a von Willebrand factor A domain, and a C-terminal serine protease (SP) domain that adopts a default inactive (zymogen) conformation. The interaction between factor B and pathogen-bound C3b is mediated by its A domain, triggering a conformational change in factor B that ultimately creates the "C3 convertase" of the alternative complement pathway. We report the crystal structure of the A domain from factor B and show that it contains an integrin-like MIDAS motif that adopts the "open" conformation typical of integrin-ligand complexes, with an acidic residue (provided by a fortuitous crystal contact) completing the coordination of the metal ion. Modeling studies indicate that the factor B A domain can also adopt the closed conformation, supporting the hypothesis that an "integrin-like switch" is conserved in complement proteins and perhaps in 60 other A domains found within the human proteome.  相似文献   

14.
Factor B is the zymogen of the catalytic site bearing subunit Bb of the C3/C5 convertase of the alternative pathway of complement. In this study, the location of the C3b binding site and the catalytic site within the Bb subunit were investigated. When human Factor B was treated with porcine elastase, fragments with respective molecular weights of 36,000, 35,000, 33,000, 31,000, and 25,000 were generated. Binding studies showed that only the 33,000-dalton fragment was capable of binding to C3b. The 33,000-dalton fragment was purified using fast protein liquid chromatography and found to be part of the Bb fragment upon testing with monoclonal antibody 15-6-19-1. Amino-terminal amino acid sequence analysis of the 33,000-dalton fragment placed it in the C-terminal half of Bb. The fragment expressed esterolytic activity as evidenced by cleavage of the synthetic substrate N alpha-acetyl-glycyl-L-lysine methyl ester and restored alternative pathway activity in Factor B-depleted serum. Its hemolytic activity was approximately 60-fold lower than that of Factor B. Comparative binding studies in the presence of metal ions using zymosan-C3b showed that the 33,000-dalton fragment bound to C3b with higher affinity than Factor B. Addition of the fragment to human serum inhibited alternative pathway activation by rabbit erythrocytes due to its high affinity for C3b and its low hemolytic activity compared to Factor B. These results show that the C-terminal 33,000-dalton portion of Bb contains not only the enzymatic site of Bb but also a C3b binding site which confers hemolytic activity upon the fragment. The observation that the fragment inhibited alternative pathway activation suggests that a synthetic peptide may be constructed that exhibits negative regulator activity in the alternative pathway.  相似文献   

15.
Alternative complement pathway C3 convertase formation involves the cleavage of C3b-associated factor B into fragments Ba and Bb. Whereas Bb, in complex with C3b, has proteolytic specificity toward native C3, the function of the Ba moiety in the formation and/or decay of alternative complement pathway C3 convertase is uncertain. Therefore, we have examined the effect of purified Ba fragment on both fluid-phase and surface-bound enzymatic activity and showed that whereas Ba could inhibit the rate of C3 convertase formation, the rate of intrinsic decay remained unaffected. A specific, metal ion-independent interaction between Ba and C3b was subsequently demonstrated by use of the cross-linking reagent dithiobis(succinimidyl propionate). When cell-associated 125I-B was activated by D, the dissociation of Bb fragment displayed simple first-order kinetics with a half-time of 2.4 min, this value being in reasonable agreement with the hemolytically determined decay rate of 1.8 min. In contrast, most of the Ba fragment undergoes rapid dissociation, but there is also evidence to suggest the establishment of a new equilibrium due to the ability of Ba to rebind to C3b. Cumulatively, these data are consistent with a model in which the attachment of intact B to C3b is mediated by two points of contact, one being in the Ba domain and the other in the Bb domain. Due to avidity effects, each of these interactions could be of relatively low intrinsic affinity, and the characteristic unidirectionality of alternative complement pathway C3 convertase decay may simply result from the low intrinsic association of "univalent" Bb for the C3b subunit.  相似文献   

16.
Lacking the extraordinary thermal stability of its metal-bound forms, apo-alpha-parvalbumin from rat muscle assumes two distinct conformations in aqueous solution. At 25 degrees C, its highly structured form predominates (Keq = 5.7; delta G degree = -4.3 kJ X mol-1); as deduced from both 1H NMR and circular dichroism (CD) spectroscopy, this conformation is exceedingly similar to those of its Mg(II)-, Ca(II)-, and Lu(III)-bound forms. The temperature dependences of several well-resolved aromatic and upfield-shifted methyl 1H NMR resonances and several CD bands indicate that the native, highly helical structure of rat apo-alpha-parvalbumin is unfolded by a concerted mechanism, showing no indication of partially structured intermediates. The melting temperature, TM, of rat apo-alpha-parvalbumin is 35 +/- 0.5 degrees C as calculated by both spectroscopic techniques. By 45 degrees C, rat apo-alpha-parvalbumin unfolds entirely, losing the tertiary structure that characterizes its folded form: not only are the ring-current-shifted aromatic and methyl 1H NMR resonances leveled, but the 262- and 269-nm CD bands are also severely reduced. As judged by the decrease in the negative ellipticity of the 222-nm CD band, this less-structured form of rat apo-alpha-parvalbumin shows an approximate 50% loss in apparent alpha-helical content compared to its folded state. Several changes in the 1H NMR spectrum of rat apo-alpha-parvalbumin were exceptionally informative probes of the specific conformational changes that accompany metal ion binding and metal ion exchange. In particular, the line intensities of the ortho proton resonance of Phe-47, the unassigned downfield-shifted alpha-CH resonances from the beta-sheet contacts between the metal-binding loops, the C2H resonance of His-48, and the epsilon-CH3 resonance of an unassigned Met residue were monitored as a function of added metal to determine the stability constants of several metal ion-parvalbumin complexes. We conclude that Mg(II) binds to the CD and EF sites independently, its affinity for the EF site being almost twice that for the CD site. Mg(II)----Ca(II) exchange showed that the CD-site Mg(II) is displaced first, in contrast to Lu(III)'s preferential displacement of the EF-site Ca(II) as determined from the Ca(II)----Lu(III) exchange experiments.(ABSTRACT TRUNCATED AT 400 WORDS)  相似文献   

17.
Functionally active guinea pig factor B was purified by a combination of chromatographic steps including Sephadex G-25, QAE A25, QAE A50, CM C50, and Sepharose 4B coupled with purified cobra venom factor. Purified factor B had a m.w. of 106,000 daltons and a single subunit structure. It was heat labile. After cleavage of native B with cobra venom factor coupled to Sepharose 4B in the presence of D, the resulting two fragments, the larger one (Bb) and the smaller one (Ba), were further purified. The m.w. of Bb and Ba was determined as 64,000 and 53,000 daltons, respectively, by SDS-PAGE. Neither of the fragments evoked a contraction of guinea pig ileum or histamine release from rat mast cells. Only the smaller fragment Ba (at a concentration of 120 nM) stimulated guinea pig peritoneal polymorphonuclear leukocytes to respond with increased movement. This activity as well as the antigenicity of Ba were heat stable, but were sensitive to trypsin digestion, whereas the antigenicity of Bb was heat labile.  相似文献   

18.
Nine CNBr-cleavage peptides from Factor B (a component of the alternative pathway of complement) were isolated. Each was characterized by amino acid analysis and automated Edman degradation. One peptide contained a methionyl bond resistant to cleavage by CNBr. The number of CNBr-cleavage peptides is in agreement with the results of amino acid analysis of Factor B and the fragments Ba and Bb. A total of 358 unique residues were identified from the N-terminal sequences of the CNBr-cleavage peptides. These represent approx. 50% and 60% of the total residues of Factor B and fragment Bb respectively. Alignment of two CNBr-cleavage peptides (CB-VIc and CB-IV) provided a continuous segment of 140 residues. This sequence contained the site cleaved by Factor D to generate the Ba and Bb fragments during the activation of complement. Peptide CB-IV contained a free thiol group at a position corresponding to residue 33 of fragment Bb. Amino sugar analyses of Factor B and of fragments Bb and Ba indicated that all the carbohydrate structures of factor B are N-linked to asparagine through N-acetylglucosamine. The two carbohydrate-attachment sites of the Bb fragment were identified.  相似文献   

19.
S Tsuda  K Ogura  Y Hasegawa  K Yagi  K Hikichi 《Biochemistry》1990,29(20):4951-4958
Binding of Mg2+ to rabbit skeletal muscle troponin C (TnC) is studied by means of two-dimensional (2D) 1H NMR spectroscopy. Using the sequence-specific resonance assignment method we assign several resonances of TnC in the Mg2(+)-saturated state. Assigned resonances are used as probes of the following titration experiments: (1) Mg2+ titration of apo-TnC, (2) Mg2+ titration of Ca2TnC, and (3) Mg2+ titration of Ca4TnC. In experiment 1, the slow-exchange behavior is observed for resonances of Phe99, Asp107, Gly108, Tyr109, Ile110, Asp111, His125, Gly144, Arg145, Ile146, Asp147, and Phe148 located at the high-affinity Ca2(+)-binding sites in the C-terminal-half domain. In experiments 1 and 2, the fast-exchange behavior is observed for resonances of Gly32, Asp33, Ser35, Gly68, Thr69, and Asp71 located at the low-affinity Ca2(+)-binding sites in the N-terminal-half domain. These results suggest that Mg2+ ions bind to the N domain as well as the C domain. In experiment 3, no spectral change is observed for all above-mentioned residues in the C domain and also for Gly32 and Gly68 in the N domain. It can be concluded that all Ca2(+)-binding sites in both the N and C domains can bind Mg2+ ions. No significant change is observed for resonances of Phe23, Ile34, Val68, and Phe72 in experiments 1 and 2. These results suggest that Mg2+ binding to the N domain does not induce conformational change in the hydrophobic region of the N domain. 2D-NMR spectra and Mg2(+)-titration data suggest that the antiparallel beta-sheet conformation is formed in both the N and C domains when Mg2+ ions bind to the two domains.  相似文献   

20.
A mechanism by which ligand binding to the extracellular domain of a growth factor receptor causes activation of its cytoplasmic tyrosine kinase domain is that binding promotes receptor dimerization. Recently we proposed a model in which dimerization of the transmembrane alpha-helices in one member of this family, rat neu, is mediated by the presence of three specific residues. This paper shows that a similar sequence motif is observed in 18 of the 20 transmembrane alpha-helices of the tyrosine kinase family of growth factor receptors. The motif encompasses a five residue segment in which position 0 (P0) requires a small side chain (Gly, Ala, Ser, Thr or Pro), P3 an aliphatic side chain (Ala, Val, Leu or Ile) and P4 only the smallest side chains (Gly or Ala). In addition other features of the transmembrane sequences are reported. It is concluded that the dimerization of transmembrane alpha-helices may be a general mechanism of tyrosine kinase activation in this family of growth factor receptors.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号