ライフサイエンスコーパス: homotetramer

1 similar to the Escherichia coli SSB (EcoSSB) homotetramer.

2 d less than that seen for the unactivated SS homotetramer.

3 human ABCG2 likely exists and functions as a homotetramer.

4 ons at this residue destabilize the R67 DHFR homotetramer.

5 active site pore traverses the length of the homotetramer.

6 and then two homodimers associate to form a homotetramer.

7 catalytic domain of E. coli RNase E forms a homotetramer.

8 Full-length AbrB is shown to exist as a homotetramer.

9 ommunication between the active sites in the homotetramer.

10 ently bound to Lys318 of two subunits of the homotetramer.

11 rometry and gel electrophoresis that it is a homotetramer.

12 The active form of the enzyme is a homotetramer.

13 ates that the native form of the enzyme is a homotetramer.

14 Thus, the enzyme is a homotetramer.

15 g revealed that 66Y likely stabilized the NA homotetramer.

16 eoprotein (NP) and self-associates to form a homotetramer.

17 tudied the folding and stability of the DCoH homotetramer.

18 heterologous assembly of BcgI, TstI forms a homotetramer.

19 ut interacts with DNA in our structures as a homotetramer.

20 le caveolin-3 nonamers bind to a single RyR1 homotetramer.

21 (M1 and M3) from another subunit within the homotetramer.

22 n the crystal structures of murine and human homotetramers.

23 heteromers by attenuating formation of GluR2 homotetramers.

24 d in Escherichia coli and purified as intact homotetramers.

25 ncentrations that specifically blocked SKCa2 homotetramers.

26 yrase regulate the formation of fully active homotetramers.

27 uired for cell surface localization of GIRK4 homotetramers.

28 are themselves capable of forming functional homotetramers.

29 and heterotetramers, with a predominance of homotetramers.

30 and 1:3 stoichiometries, in addition to the homotetramers.

31 ma membrane doubles the contribution of PIP2 homotetramers.

32 n 1 (Rom1), but retained the ability to form homotetramers.

33 sufficient to maintain ATP regulation in R2 homotetramers.

34 re tryptases but not alpha- or beta-tryptase homotetramers.

35 the same extent as that observed for mutant homotetramers.

36 attenuated Ca(2+) release when expressed as homotetramers.

37 ring analysis that PlaB forms homodimers and homotetramers.

38 t channels preferentially self-assemble into homotetramers.

39 m and the transition from ExbB homodimers to homotetramers.

40 with viral proteins NP and L or formation of homotetramers.

41 lpha-subunit rather than antagonism to Kv1.2 homotetramers.

42 no acid hydroxylase superfamily, exists as a homotetramer (236 kDa on size exclusion chromatography).

43 KAP is a homotetramer (38.2 kDa per subunit) and, as purified, co

44 The enzyme is a homotetramer (42.06 kDa per subunit) and, as purified, c

45 s begins with the dissociation of the native homotetramer (a dimer of dimers) to form a monomeric int

46 ls of TRPC1 increased the formation of TRPC5 homotetramer, a highly Ca(2+)-permeable channel, and sti

47 alpha/beta-Tryptase, but not homotetramer, activates protease-activated receptor-2 (P

48 B binds to the sinIR DNA target element as a homotetramer, affording a 4:1 protein:DNA stoichiometry.

49 The homotetramer (ALDH1 or ALDH2) is a dimer of dimers (A-B

50 pparent destabilization of the purified PEPC homotetramer, all were compromised catalytically in vivo

51 psilon A)]) with recombinant (C1)4 and (C2)4 homotetramers along with competition binding assays with

52 Apo-SiRHP forms a homotetramer, also dependent on its N terminus, that is

53 ng showed that the protein was purified as a homotetramer, although nonspecific oligomerization occur

54 thyroxin-binding sites in TTR stabilizes the homotetramer and attenuates TTR amyloidosis.

55 PpCMLE is a homotetramer and belongs to the fumarase class II superf

56 LpdA is a homotetramer and co-purifies with one molecule of tightl

57 lodysplastic syndromes, at the DNMT3A.DNMT3A homotetramer and DNMT3A.DNMT3L heterotetramer interfaces

58 The NA TMD formed a homotetramer and efficiently trafficked to the plasma me

59 The C. trachomatis FabI (CtFabI) is a homotetramer and exhibited typical FabI kinetics, and it

60 The M(2) ion channel is a homotetramer and has a 24-residue N-terminal extracellul

61 C-MS, we confirm that AbrB is assembled as a homotetramer and not as a homohexamer as previously sugg

62 5F11-scFv-streptavidin (5F11-scFv-SA) was a homotetramer and showed comparable avidity to 5F11 IgM a

63 This structure confirms that MspJI acts as a homotetramer and that the modified cytosine is flipped f

64 molecular mass of 235 kD corresponding to a homotetramer and the C-terminus was critical for this ol

65 DGAT1 can exist as either a homodimer or a homotetramer and the two forms have similar enzymatic ac

66 ation analysis suggested that RPA1 exists as homotetramers and homodimers in solution, while RPA2 and

67 e activity and consisted of cross-linked A3G homotetramers and homodimers.

68 d-type (WT) and C-terminally tagged (CT) TTR homotetramers and hybrid tetramers (i.e., tetramers cont

69 ortant structural differences between sqKv1A homotetramers and native squid channels are likely to ex

70 We tested whether purified KLP61F homotetramers and Ncd homodimers can generate a force ba

71 nd 15 (four homodimers, six homotrimers, six homotetramers and one homopentamer) had solution small-a

72 te of subunit exchange between wild-type TTR homotetramers and wild-type TTR homotetramers tagged wit

73 rs could combine to form either two types of homotetramers and/or one heterotetramer composed of both

74 protein exists in solution as a heat-stable homotetramer, and enzymatic assays reveal that the expre

75 f only 1 mol of phosphate per mole of enzyme homotetramer, and glycogen synthase kinase-3 incorporate

76 uine butyrylcholinesterase (BChE), a 364 kDa homotetramer, and the complexes were studied by (1)H NMR

77 XR is unique in that it self-associates into homotetramers, and that these tetramers dissociate rapid

78 stability and are generally assumed to form homotetramers, and this species is proposed to be the on

79 s, C-terminally disulfide-linked homodimers, homotetramers, and up to three tetramers covalently atta

80 The assembly process of the hemoglobin H homotetramer apparently follows a scenario similar to th

81 vities of the resurrected L(K41R.T51K.S302N) homotetramer are compared with its heterotetrameric form

82 Currents mediated by BK channel-forming slo1 homotetramers are consistently inhibited by increases in

83 ugh the evidence to date suggests that GIRK1 homotetramers are not functional.

84 ers in each of the expression systems with a homotetramer as a predominant form.

85 etic data reveal the dissociation of the p73 homotetramers as the rate-limiting step for heterotetram

86 entrifugation, where the active enzyme was a homotetramer at 4 degrees C but dissociated into inactiv

87 lytic portion of beta-tryptase to the active homotetramer at acid pH requires heparin.

88 we found that this peptide assembles into a homotetramer at neutral pH in contrast to the native mol

89 and incorporate subunits from labeled WT TTR homotetramers at a rate equivalent to that exhibited by

90 from Saccharomyces cerevisiae (ScRim1) forms homotetramers at high protein concentrations, whereas at

91 rates of two ligands, beta-glucuronidase (a homotetramer bearing multiple Man-6-P moieties) and IGF-

92 in the ESI mass spectrum corresponds to the homotetramer beta*4, alongside homodimeric species and m

93 SSB homotetramers bind ssDNA in several modes differing in o

94 SSB homotetramers bind ssDNA in several modes that differ in

95 nge (DeltaC(p,obs)) for Escherichia coli SSB homotetramer binding to single-stranded (ss) DNA.

96 cells shows that MAT-3 predominantly forms a homotetramer but also a trimer and a dimer.

97 We show that nestin forms homodimers and homotetramers but does not form IF by itself in vitro.

98 The E. coli enzyme is a homotetramer, but in a quaternary state between the cano

99 o note that both of these proteins behave as homotetramers, but one behaves as a more compact molecul

100 the subunit exchange reaction of p53 family homotetramers by nanoflow electrospray mass spectrometry

101 gion of contact between subunits within RyR1 homotetramer Ca2+ release channels.

102 ompetition with the other pathways, in which homotetramers can be formed either by the association of

103 Mutant homotetramers carry little or no K+ current despite norm

104 In oligodendrocytes, KIR4.1 appears as a homotetramer channel, in astrocytes as homo- and heterot

105 change of MnSOD's stoichiometry from a known homotetramer complex to a monomeric form.

106 Comprised of a homotetramer complex, its function primarily is to slide

107 T4 Pnk is a homotetramer composed of a C-terminal phosphatase domain

108 In solution, the enzyme (EC ) exists as a homotetramer composed of non-covalently linked subunits

109 yntaxin 1A H3, four molecules associate as a homotetramer composed of two pairs of parallel helices t

110 rotein of human metapneumovirus (HMPV) forms homotetramers composed of a stable oligomerization domai

111 oltage-dependent potassium channels (Kv) are homotetramers composed of four voltage sensors and one p

112 The enzyme is a homotetramer comprising two obligate dimers and four pyr

113 complex, indicating that the crystallin was homotetramer consisting of 38-kDa subunits.

114 The structure of EmoB is a homotetramer consisting of four alpha/beta-single-domain

115 C-terminal region of Abeta assemble to form homotetramers consisting of two hydrogen-bonded dimers.

116 The enzyme is a homotetramer, consisting of an alpha/beta single domain

117 The subunit of the DAHPS(Tm) homotetramer consists of an N-terminal ferredoxin-like (

118 , the synaptic intermediate is a recombinase homotetramer containing a pair of loxP DNA target sites.

119 contain four identical subunits which form a homotetramer containing a single active site pore access

120 the E. coli enzyme, A. aeolicus KDO8PS is a homotetramer containing four distinct active sites at th

121 Because the lac repressor homotetramer contains two DNA binding modules, it bridge

122 ly inhibits TRPC4alpha, TRPC4beta, and TRPC5 homotetramer currents and also TRPC1/4alpha, TRPC1/4beta

123 well as an experimental SAXS profile of the homotetramer D-xylose isomerase.

124 tion in non-alpha chains plays a key role in homotetramer, dimer, and monomer formation, which in tur

125 of bacterial SSB family members function as homotetramers, dimeric SSB proteins were recently discov

126 Homotetramers dominated in Nonidet P-40, and dimers and

127 BK channels are homotetramers (encoded by Slo1) that possess a unique tr

128 , resulting in high-force production at both homotetramer ends.

129 Unlike the SS enzyme, however, the LS302N homotetramer enzyme is neither activated by the effector

130 tion of a population of AGPase small subunit homotetramer enzymes with enhanced affinity toward ATP a

131 Inversely, the GIRK2 homotetramers exhibit low Ibasal and strong activation b

132 We show that the T119M homotetramer exhibits kinetic stabilization and therefor

133 IVD protein rapidly and stably forms mature homotetramer following import, whereas Type III mutant p

134 vious evidence that peripherin/rds mice form homotetramers for outer segment targeting.

135 The structure of OsGAPDH showed a homotetramer form with each monomer comprising three dom

136 GIRK4 homotetramers form channels with unusual single channel

137 a(112Thr,116Ile) chains showed homodimer and homotetramer formation like gamma-globin chains which co

138 on of betaB1DeltaN56 increased, resulting in homotetramer formation, and heteromolecular association

139 modeling predictions for ASL heterotetramer/homotetramer formation.

140 herichia coli RNase E protein functions as a homotetramer formed by Zn linkage of dimers within a reg

141 -electron microscopy structures of the GluA1 homotetramer, fully occupied with TARPgamma3 auxiliary s

142 GIRK channels exist as homotetramers (GIRK2 and GIRK4) or heterotetramers with

143 The E487K homotetramers had 8% specific activity of the Glu487 enz

144 tose-1,6-bisphosphate aldolase (EC 4.1.2.13) homotetramer has been destabilized by site-directed muta

145 data reveal that the C10S/V30M and V30M TTR homotetramers have identical amyloidogenicity and stabil

146 The map shows that the protein is a homotetramer, having a low-density region on the 4-fold

147 man gamma2 tetramers as well as human gamma4 homotetramers (hemoglobin Bart's).

148 tor (RXR) can regulate transcription through homotetramers, homodimers, and heterodimers with other n

149 s30 and Tyr166 from adjacent subunits in the homotetramer human manganese superoxide dismutase (Mn-SO

150 The enzyme is a homotetramer in its functional state, and the symmetry o

151 2-6His shows that it associates as a 196-kDa homotetramer in vitro, a result that is significant in l

152 KDO8P synthase is a homotetramer in which each monomer has the fold of a (be

153 cture of the apoenzyme form of LmFBPase is a homotetramer in which the dimer of dimers adopts a plana

154 Structural studies revealed a homotetramer in which the quaternary arrangement of subu

155 Rabbit muscle aldolase is a homotetramer in which the subunits have a classical alph

156 ctions in purine biosynthesis, is normally a homotetramer in which three subunits contribute to each

157 cinate lyase (ASL) of Bacillus subtilis is a homotetramer in which three subunits contribute to each

158 present closed-state structures of GluK2 KAR homotetramers in complex with ion channel blockers NpTx-

159 ansport protein (GLUT1) forms homodimers and homotetramers in detergent micelles and in cell membrane

160 Structures of GluA2 homotetramers in distinct functional states, together wi

161 We also show that GIRK subunits may form homotetramers in expression systems, although the eviden

162 ABCD1 and its homolog ABCD2 exist mainly as homotetramers in the peroxisomal membrane.

163 ) currents generated by N-type alpha-subunit homotetramers inactivate rapidly because an N-terminal b

164 in three human TTR single amino acid variant homotetramers including two familial amyloidotic polyneu

165 rents during UBP-310 dissociation from GluK1 homotetramers, indicating that antagonist dissociation p

166 amyloid by acid-mediated dissociation of the homotetramer into monomers.

167 Each subunit of the homotetramer is characterized by a five-stranded anti-pa

168 etin is not amyloidogenic because the native homotetramer is kinetically stable under physiologic con

169 We show that the DCoH1 homotetramer is kinetically trapped, meaning once it for

170 Each subunit of the homotetramer is made up of three distinct domains with o

171 This suggests that the formation of homotetramers is a common feature of NAP-1 fold histone

172 erotrimer) or Mer2 (a coiled-coil-containing homotetramer) is monodispersed in solution, but they ind

173 KIF11 encodes EG5, a homotetramer kinesin motor.

174 In the self-inactivated homotetramer, KLHDC2's C-terminal Gly-Ser motif mimics a

175 In solution, native CelF exists as a homotetramer (M(w), approximately 200,000) composed of n

176 esidues, but exhibits neither the functional homotetramer nor the homodimer that distinguish all SDRs

177 trophoresis to provide evidence that it is a homotetramer of 110-kDa subunits.

178 eptomyces lividans KcsA potassium channel, a homotetramer of 17.6 kDa subunits, was found to contain

179 manganese superoxide dismutase (MnSOD) is a homotetramer of 22 kDa subunits, a dimer of dimers conta

180 of human Mn superoxide dismutase (hMnSOD), a homotetramer of 22 kDa, reveals a functional role for th

181 The tumor suppressor p53 is a homotetramer of 4 x 393 residues.

182 Cardiac ryanodine receptor (RyR2) is a homotetramer of 560 kDa polypeptides regulated by calmod

183 The native enzyme was a homotetramer of 58-kDa subunits and exhibited a pI of 4.

184 The enzyme is a homotetramer of about 50 kDa subunits and is not subject

185 AqpZ is a homotetramer of four water-conducting channels that faci

186 residues in each of the four subunits of the homotetramer of human MnSOD was replaced with 3-fluoroty

187 H-1 (the homotetramer of LDHB) or LDH-5 (the homotetramer of LDHA), respectively.

188 etramers and leaving T cells with LDH-1 (the homotetramer of LDHB) or LDH-5 (the homotetramer of LDHA

189 report that the rat BCKD kinase exists as a homotetramer of M(r) = 185,000, based on results of gel

190 nt FA796 protein, which is predicted to be a homotetramer of the 1Fe-SOR class, can reduce superoxide

191 c GABA(B(1,2)) receptors that associate with homotetramers of auxiliary KCTD8, -12, -12b, or -16 (nam

192 nsing and pore-forming domains, but they are homotetramers of four identical subunits, rather than ps

193 e among bacterial SSBs, which typically form homotetramers of single-OB domain subunits.

194 nin is a monomeric protein that forms stable homotetramers on addition of BLA to the protein.

195 ndence of activation and/or inactivation, as homotetramers or when coexpressed with wild-type K(V) 2.

196 se allosteric interactions that exist in the homotetramer phosphofructokinase from Bacillus stearothe

197 The crystal conformation of the homotetramer points to the fact that, in the absence of

198 This homotetramer possesses a single active site pore and exa

199 high-resolution crystal structure shows the homotetramer possesses exact 222 symmetry.

200 The LS302N homotetramer possesses very little enzyme activity at a

201 This enzyme is a homotetramer possessing 222 symmetry, and a single activ

202 nomers (78 amino acids long) assemble into a homotetramer possessing 222 symmetry.

203 e 78 amino acids long, which assemble into a homotetramer possessing 222 symmetry.

204 R67 DHFR is a homotetramer possessing a single active site pore.

205 The active form of the protein is a homotetramer possessing D(2) symmetry and a single activ

206 Thus, beta-tryptase homotetramers probably account for active enzyme detecte

207 GAC activation requires the formation of homotetramers, promoted by anionic allosteric activators

208 glucose to concanavalin A (ConA), a 106 KDa homotetramer protein, in free solution using picomoles o

209 cture of the full-length AMPA receptor GluA2 homotetramer, provide unique insights into the mechanism

210 We demonstrate herein that TTR homotetramers reassemble by an unusual monomer-dimer-tri

211 etal muscle Ca(2+) release channel (RyR1), a homotetramer, regulates the release of Ca(2+) from the s

212 er (Solanum tuberosum) AGPase (small subunit homotetramer) reported previously by others revealed tha

213 tion conditions for a group of eight protein homotetramers, representing a broad sample of protein st

214 w, in single molecule assays, that kinesin-5 homotetramers require the nonmotor C terminus for crossl

215 y kinetics of (35)S label incorporation into homotetramers showed a lag period corresponding to the t

216 contains a single Mis18 isoform that forms a homotetramer, showing tetrameric Mis18 is conserved from

217 During export in Escherichia coli, SecB, a homotetramer structurally organized as a dimer of dimers

218 The Lys 30 --> Nle variant forms a stable homotetramer (T(m) = 60 degrees C).

219 6/Lys 30 --> Nle variant forms a very stable homotetramer (T(m) = 80 degrees C).

220 ild-type TTR homotetramers and wild-type TTR homotetramers tagged with an N-terminal acidic flag tag

221 Purified ssA-TIBF is a homotetramer that binds one substrate molecule and conta

222 ed DNA binding protein (SSB) is an essential homotetramer that binds ssDNA and recruits multiple prot

223 hat hKif15 is a plus-end-directed processive homotetramer that can step against loads of up to 3.5 pN

224 Dihydrodipicolinate reductase (DHPR) is a homotetramer that catalyzes reduction of dihydrodipicoli

225 Transthyretin (TTR) is a homotetramer that circulates in both blood and cerebrosp

226 The M2 protein is a homotetramer that contains four 19-residue transmembrane

227 The M2 protein is a homotetramer that contains in its aqueous pore a histidi

228 r short-chain acyl-CoA derivatives to form a homotetramer that covers the binding cavity and locks Co

229 KLP61F is a bipolar homotetramer that cross-links spindle microtubules [4].

230 R67 DHFR is a homotetramer that exhibits numerous characteristics of a

231 hermophilus phosphofructokinase (BsPFK) is a homotetramer that is allosterically inhibited by phospho

232 The dimers form a functional homotetramer that is fashioned through contacts between

233 ring mass spectrometry revealed AmpR to be a homotetramer that is stabilized by DNA containing the T-

234 stal structure data reveals this enzyme is a homotetramer that possesses a single active site pore.

235 pha3 chain the novel long chains assemble to homotetramers that are incorporated into mixed microfibr

236 embrane (TM) helix, which associates to form homotetramers that bind the anti-influenza drug amantadi

237 ceptor potential (TRP) channel subunits form homotetramers that function in sensory transduction.

238 ro, recombinant AIRE can form homodimers and homotetramers that were also detected in thymic protein

239 recombinant cav-3 nonamers and purified RyR1 homotetramers that would imply that at least one of the

240 EcSSB forms homotetramers that wrap ssDNA in multiple conformations

241 laevis, and Xenopus tropicalis formed stable homotetramers, the mtSSBs from Candida albicans and Cand

242 Together, we demonstrate that ACLY forms a homotetramer through the C terminus to facilitate CoA bi

243 ull-length ACAT1 converted the enzyme from a homotetramer to a homodimer.

244 lies on kinesin-5 motors that act as bipolar homotetramers to crosslink microtubules.

245 structural network adopted by a sialic acid homotetramer, used as a model for a,2-8 linked polysacch

246 Unlike the other ACADs, which are soluble homotetramers, VLCAD is a homodimer associated with the

247 The subunit size of the native homotetramer was determined to be 34,000 Da.

248 A model for the DNMT3A homotetramer was developed via computational interface s

249 ng pattern of Gbetagamma attachment to GIRK4 homotetramers was consistent with the binding of one, tw

250 Putative homotetramers were also observed.

251 Homotetramers were identified for the type III IP3R; how

252 ified for the type III IP3R; however, type I homotetramers were undetectable.

253 These GIRK4 complexes, most likely GIRK4 homotetramers, were previously not seen because of their

254 Both form enzymatically active homotetramers when overexpressed in Escherichia coli.

255 e sequence TRPC4beta < TRPC4alpha < TRPC5 in homotetramers, whereas when forming heterotetramers with

256 us with the TPP enzymes having arisen from a homotetramer which subsequently diverged into an alpha(2

257 absence of ligand, RXR self-associates into homotetramers which are transcriptionally silent, and th

258 behavior similar to that of the E. coli SSB homotetramer, which also shows binding mode transitions,

259 quitously expressed enzyme, functioning as a homotetramer, which catalyzed the rate-limiting step in

260 of free RI crystallizes in a domain-swapped homotetramer, which likely works as a sink for RI molecu

261 ramer of immature proteoid roots into a p107 homotetramer while significantly increasing the enzyme's

262 omodimers or heterodimers, but it also forms homotetramers whose function is poorly defined.

263 The AQP1 water channel protein is a homotetramer with 28 kDa subunits containing six transme

264 It forms a symmetric homotetramer with a central pore which functions as the

265 MAO-N exists as a homotetramer with a large channel at its centre and shar

266 FOR is a homotetramer with a mass of 280 kDa and contains approxi

267 This enzyme is a homotetramer with a molecular mass of 108 kDa.

268 This enzyme is a homotetramer with a monomer molecular mass of 42 kDa.

269 ACLY forms a homotetramer with a rigid citrate synthase homology (CSH

270 Short chain acyl-CoA dehydrogenase is a homotetramer with a subunit mass of 43 kDa and crystalli

271 The membrane-associated enzyme is a homotetramer with a subunit molecular mass of 49,500 Da.

272 ole in excitation-contraction coupling, is a homotetramer with a subunit molecular mass of 565 kDa.

273 Thus, CorA appears to be a homotetramer with a TM segment of one monomer physically

274 the principal ion observed corresponds to a homotetramer with an average molecular mass of 86,844 Da

275 -C6H4)-OCH2CH2NH2 PLL was discovered to be a homotetramer with an intersubunit disulfide bridge.

276 ped protomers assemble into a C(4)-symmetric homotetramer with an open central core and a surface con

277 gral membrane protein whose active form is a homotetramer with each polypeptide chain containing 96-a

278 The enzyme from S. typhi is a homotetramer with each subunit containing 339 amino acid

279 SSB functions as a homotetramer with each subunit possessing a DNA binding

280 cal characterization indicates TtHGXPRT as a homotetramer with excellent activity and stability acros

281 chia coli phosphofructokinase 1 (EcPFK) is a homotetramer with four active and four allosteric sites.

282 ctokinase from Escherichia coli (EcPFK) is a homotetramer with four active sites and four allosteric

283 ctokinase from Escherichia coli (EcPFK) is a homotetramer with four active sites, which bind the subs

284 exchange rates in rabbit muscle aldolase, a homotetramer with M(r) = 157,000.

285 enzyme for treatment of hyperuricemia, is a homotetramer with multiple surface lysines, limiting con

286 HMPV P is a homotetramer with regions of intrinsic disorder and has

287 The asymmetric unit contains a homotetramer with substrate/product bound in two monomer

288 IscA exists as an (alpha1alpha2)2 homotetramer with the (alpha1alpha2) dimer comprising th

289 The enzyme forms a 222 homotetramer with the PLP cofactor bound via a Schiff-ba

290 n of seven different forms of a streptavidin homotetramer with variations of N-terminal methionine re

291 RyRs form homotetramers with a mushroom-like shape, consisting of

292 They are homotetramers with dimeric motor and tail domains at bot

293 Voltage-gated potassium (Kv) channels are homotetramers with each subunit constructed from six tra

294 bipolar mitotic spindle in eukaryotes, forms homotetramers with two pairs of motor domains positioned

295 It is a homotetramer, with each monomer consisting of a transmem

296 SOR forms a homotetramer, with each subunit adopting an immunoglobul

297 The enzyme forms a homotetramer, with the dinucleotide binding at the monom

298 RmlA is a homotetramer, with the monomer consisting of three funct

299 of bacterial SSB family members function as homotetramers, with each monomer contributing a single O

300 bifidobacterial GH38 alpha-mannosidases form homotetramers, with the N-terminal jelly roll domain con