ライフサイエンスコーパス: held together by

1 S and 50S) of the bacterial 70S ribosome are held together by 12 dynamic bridges involving RNA-RNA, R

2 microscopy confirms that the assemblies are held together by 120 S-Au(i)-S staples between the prote

3 cubes from 12 helical macrocycles, which are held together by 144 weak C-H hydrogen bonds(3).

4 x bundles with a core of three alpha-helices held together by a [4Fe-4S] cluster.

5 from the formation of a tetraplex structure held together by a central block of G-quartets, the stru

6 5, which contains eight copies of compound 1 held together by a central core.

7 oplasmic filament nucleoporin complex (CFNC) held together by a central heterotrimeric coiled-coil hu

8 cle consisting of four globular WD40 domains held together by a central stalk consisting of four N-te

9 ric fold for KaiC, in which two hexamers are held together by a coiled-coil bundle of 12 helices.

10 many molecular motors, is a two-headed dimer held together by a coiled-coil rod.

11 many molecular motors, is a two-headed dimer held together by a coiled-coiled rod.

12 This structure is held together by a combination of [N-H...N] hydrogen bon

13 scopy reveals that cells within colonies are held together by a combination of fine intercellular bri

14 evron-shaped antiparallel Ig-Ig architecture held together by a conserved molecular interface, which

15 ls that the alpha helix and beta hairpin are held together by a defined hydrophobic core.

16 element within the second insertion that is held together by a distal loop that is critical for TcPI

17 ometric analysis indicates that the dimer is held together by a dityrosine link between Tyr-289 in ea

18 Centrosomes are held together by a dynamic linker regulated by Nek2 kina

19 ed to the DNAs that are to be recombined are held together by a flat interface.

20 ed here shows a compact quaternary structure held together by a four-way interface between DBD-B, DBD

21 rophore host-guest assembly is noncovalently held together by a hydrogen bonding interaction between

22 l have stopped moving; (3) the comet core is held together by a matrix of slime; and (4) the comets e

23 During NHEJ DNA ends are held together by a multi-protein synaptic complex until

24 , observed in several crystal structures, is held together by a noncovalent intramolecular tether and

25 This heterodimer is held together by a primary C-Hpi hydrogen bond, assisted

26 Duplicated centrosomes are held together by a proteinaceous linker made up of rootl

27 Cleavage occurs in a synapse of two sites, held together by a resolvase tetramer; cleavage at one s

28 Biofilms are communities of cells held together by a self-produced extracellular matrix ty

29 as biofilms wherein the individual cells are held together by a self-produced extracellular matrix.

30 small and large subunits of the ribosome are held together by a series of bridges, involving RNA-RNA,

31 fold in which the top and bottom sheets are held together by a silk-like interdigitation of short si

32 cture is composed of two distinct subdomains held together by a small, conserved hydrophobic interfac

33 al bundle protein consisting of five helices held together by a strong hydrophobic core.

34 uctures composed of blood cells and proteins held together by a structural framework provided by an i

35 VLPs consist of 72 pentameric VP1 subunits held together by a terminal clamp structure that is furt

36 a peroxisome-ER contact site in human cells held together by a tethering complex of VAPA/B (vesicle-

37 implants with components welded together or held together by a transocclusal screw.

38 erotrimer with alpha, beta, and gamma chains held together by a triple-stranded alpha-helical coiled-

39 LNR_A is held together by a unique arrangement of three disulfide

40 omponents of an architecture built from-thus held together by-a continuous scaffold strand, which in

41 E, and F, where abutments and implants were held together by abutment screws.

42 sumed to be formed by short linear filaments held together by actin cross-linkers.

43 e organized as a pseudostratified epithelium held together by adherens junctions (AJs), multiprotein

44 al structures show that these assemblies are held together by Ag(4)I, Ag(4)Br, or Ag(6)(SO(4))(2) clu

45 consist of two precisely stacked pi-systems held together by aliphatic chains.

46 phosphate backbone is replaced by a backbone held together by amide bonds.

47 sphate backbone is substituted by a backbone held together by amide bonds.

48 ameworks, called COFamides, whose layers are held together by amide hydrogen bonds.

49 s associate in an antiparallel configuration held together by an electrostatic "zipper" of complement

50 face-to-face and edge-to-face orientations, held together by an extended hydrogen-bonding network.

51 structures that nucleate thermally, and are held together by an extended network of hydrogen bonds.

52 o, perpendicular sheets (A and B), which are held together by an extensive hydrophobic core and disul

53 ironment, microbes organize into communities held together by an extracellular matrix composed of pol

54 structured communities of bacteria that are held together by an extracellular matrix consisting of p

55 unities known as biofilms in which cells are held together by an extracellular matrix principally com

56 unities known as biofilms in which cells are held together by an extracellular matrix.

57 planktonic cells and as biofilms, which are held together by an extracellular matrix.

58 ies known as biofilms in which the cells are held together by an extracellular matrix.

59 s forms biofilms whose constituent cells are held together by an extracellular matrix.

60 that it adopts a trimeric structure, partly held together by an immunoglobulin-like trimerization do

61 ine-fold arrangement of microtubule triplets held together by an inner protein scaffold.

62 f this disulfide bridge-deficient enzyme are held together by an intensive hydrogen-bonding network.

63 These nano-domains are held together by an interstitial net-like matrix of wate

64 rbB3 can adopt a closed conformation that is held together by an intramolecular tether.

65 ced electron-transfer mechanism in molecules held together by an NHcdots, three dots, centeredpi bond

66 ability to accept the long composite primer held together by an unnatural imine linkage.

67 ified protein has revealed that the dimer is held together by arginine-aspartate salt bridges.

68 sition from columnar arrangements of F-actin held together by arrays of lysozyme at the threefold int

69 The clusters appear to be stable aggregates held together by base stacking and three different base-

70 rom the assembly of the peptides into fibers held together by beta sheets.

71 e two transcription repressive complexes are held together by binding the long noncoding RNA HOTAIR.

72 ns discrete Li:Mn = 1:2 trinuclear molecules held together by bridging diketonate ligands.

73 which the hairpin monomers are parallel and held together by C : C+ hydrogen-bonding and intercalati

74 isters of 26 kb circular minichromosomes are held together by catenation as well as by cohesin.

75 (X) Organs are held together by cell adhesion in functional relationshi

76 Individual cells in such barriers are held together by cell-cell adhesion structures - also kn

77 gaps are a common feature of compact tissues held together by cell-cell adhesion.

78 valents consisting of homologous chromosomes held together by chiasmata biorient.

79 nse bivalent pairs of homologous chromosomes held together by chiasmata.

80 The complex is covalently held together by chondroitin sulfate but during inflamma

81 Sister chromatids are held together by cohesin, a tripartite ring with a perip

82 Sister centromeres are compacted and held together by cohesin, condensin, and topoisomerase-m

83 n coat corresponded to a polyhedral nano-net held together by coiled-coil segments.

84 The extracellular domain is a trimer held together by collagen-like and coiled-coil domains a

85 types of molecular structures, which are not held together by covalent bonds but by non-covalent mech

86 mprise a polymer-gold nanoparticle composite held together by cucurbit[8]uril ternary complexes.

87 ing protein cages, in which the subunits are held together by different molecular cross-linkers.

88 ma membrane (PM) contacts are proposed to be held together by distinct families of tethering proteins

89 xidized KCNB1 channels, which form oligomers held together by disulfide bridges involving Cys-73, acc

90 hemolymph as a high-molecular-weight complex held together by disulfide bridges.

91 y organic ligands, of varied structures, and held together by diverse binding motifs-exhibit size-dep

92 engineering, where nanoparticle "atoms" are held together by DNA "bonds", offers a route to design c

93 rad is a planar association of four guanines held together by eight hydrogen bonds.

94 lymer (CCP) yields supramolecular structures held together by electrostatic forces that incorporate t

95 Although they are composed of multiple units held together by electrostatic interactions, the entire

96 ers each, which are stacked head to head and held together by extensive interfaces.

97 on three subunits in the asymmetric unit and held together by extensive ionic interactions.

98 nity for the receptor and with binding sites held together by flexible linkers, lead to nearly quanti

99 in methanol-d(4) are velcraplex-like dimers held together by four metal cations.

100 random aggregation and compaction of fibers held together by friction forces.

101 elf-assembly paradigms, these structures are held together by geometric constraints rather than adhes

102 d structures in which two parallel duplexes, held together by hemiprotonated cytosine.cytosine+ (C.C+

103 protein, several domains remained invariant, held together by highly conserved disulfides.

104 ally distinct four-coordinate iron fragments held together by highly covalent hydride ligands.

105 build up a picture of how the IAPP fibril is held together by hydrogen bonded beta-sheet structure an

106 acterization of hexameric molecular capsules held together by hydrogen bonding.

107 frameworks consisting of charged molecules, held together by hydrogen bonds and Coulomb interactions

108 r of the bilayer and adjacent monolayers are held together by hydrogen bonds between amine and carbox

109 Host structures held together by hydrogen bonds have lifetimes in organi

110 erials consist of organic and inorganic ions held together by hydrogen bonds, electrostatic forces, a

111 ch were constructed from d4R BUs exclusively held together by hydrogen bonds.

112 o form polymers with network-like structures held together by hydrogen bonds.

113 e N- and C-terminal domains that are loosely held together by hydrophobic and hydrogen bond interacti

114 parallel beta-sheets face each other and are held together by hydrophobic staples and hydrogen bonds

115 ked columnar complexes in which the actin is held together by incommensurate, one-dimensional arrays

116 ein dimer composed of two alphabeta monomers held together by inter-alpha-chain disulfide bonds.

117 igand-recognition and signaling subunits are held together by interactions between acidic and basic r

118 rmine the structure of the hexamer, which is held together by interactions between parasite-specific

119 ble the creation of a supramolecular polymer held together by interactions between the protonated ali

120 oth as single cells and as clusters of cells held together by intercellular junctions.

121 ur helices arranged in a right-handed bundle held together by interhelical hydrophobic interactions s

122 o (Solanum lycopersicum), the anther cone is held together by interlocking hairs (trichomes) along th

123 diamondoid supramolecular complexes that are held together by intermolecular interactions.

124 E can also rapidly degrade hormones that are held together by intramolecular disulfide bond(s) withou

125 raveled partially folded states, while being held together by its dimeric interface.

126 s the signature of a solid-body planetesimal held together by its internal strength.

127 is characterized by complex molecular forms held together by junctional molecules of unknown biologi

128 h is remarkable for a supramolecular complex held together by just four intercomponent hydrogen bonds

129 The microtubule lattice is held together by lateral and longitudinal tubulin-tubuli

130 -BARs polymerize into helical coats that are held together by lateral and tip-to-tip interactions.

131 consists of short, single-stranded polymers held together by lateral interactions.

132 The unusual bellflower-like assembly is held together by leucine/isoleucine zipper motifs along

133 se NLRP3 is a 12- to 16-mer double-ring cage held together by LRR-LRR interactions with the pyrin dom

134 support the hypothesis that most viruses are held together by many weak interactions.

135 ed, one-dimensional tubular superstructures, held together by means of multiple [CHOC] hydrogen-bondi

136 stalline framework is demonstrated, which is held together by means of weak "sticky fingers" van der

137 s rotaxanes and catenanes, the molecules are held together by mechanical rather than chemical bonds.

138 that chloroplasts within clmp1 clusters are held together by membranous connections, including thin

139 By contrast, structures held together by molecular bonds can, in principle, sust

140 lid state normally produces chains or sheets held together by multiple C-H...O interactions, giving s

141 sists of two strands of nucleotides that are held together by multiple hydrogen bonds.

142 indicating a thermodynamic state of assembly held together by multivalent interactions between the ph

143 is formed by the 5'-purines of both hairpins held together by mutual stacking interactions.

144 The host is held together by N -> B bonds and forms a diboron assemb

145 lid state, with the host and the guest being held together by N-H...O hydrogen-bonding interactions.

146 complex composed of two disk-shaped nonamers held together by N-terminal swapping of the pro-peptides

147 med in solutions of the mutant proteins were held together by net hydrophobic, anisotropic interactio

148 dual molecules and associations of molecules held together by non-covalent interactions.

149 counterion are reaction partners that can be held together by non-covalent interactions.

150 ear supermicelles, supramolecular structures held together by non-covalent solvophobic and coordinati

151 ly stable four-stranded secondary structures held together by noncanonical G-G base pairs.

152 asurable fragment ions only if these are not held together by noncovalent bonds.

153 amily members, mts1 is a symmetric homodimer held together by noncovalent interactions between two he

154 ults further suggest that the NSF hexamer is held together by oligomerization of its D2 domains.

155 pic glutamate receptors are covalent dimers, held together by one or more disulfide bonds near the N

156 heir entirety, in any single genome, but are held together by overlapping, partially conserved gene a

157 Its 3D structure is held together by pai-pai stacking interactions between t

158 mains in the adaptor nucleoporin complex are held together by peptide interactions that resemble thos

159 pose large areas of membrane surface and are held together by promiscuous interactions between endoph

160 dissociation of mitochondrial DNA fragments held together by protein, specifically, ones containing

161 The alpha-interacting domain is held together by protein-protein interactions between be

162 a four-stranded structure whose strands are held together by proton-bound dimers of cytosine (C(+)*C

163 These occur as slow-moving aggregates held together by radiation-sensitive linkers consisting

164 nstead, these are highly structured networks held together by receptor dimers.

165 can be assembled in vertical stacks that are held together by relatively weak van der Waals forces, e

166 riginating from a single-chain precursor and held together by several disulfide bonds.

167 , a large polymer composed of glycan strands held together by short peptide cross-links.

168 When meiosis begins, sisters are held together by sister chromatid cohesion (SCC), mediat

169 NMR analyses show that the folded Z-motif is held together by six reverse skinny dZ(-):dZ base pairs,

170 These bundles are typically held together by smaller cross-linking molecules.

171 ate a well-defined cohesive granular medium, held together by solidified, and hence elastic, capillar

172 paralogue myoferlin, which has a unique fold held together by stacking of arginine and tryptophans, m

173 orm a contiguous 2-dimensional sheet that is held together by strong adhesions.

174 ause they generally are chemically inert and held together by strong covalent bonds.

175 molecules and small, tightly knit assemblies held together by strong hydrogen bonds, which may form l

176 erization to ion-molecule complexes that are held together by strong hydrogen bonds.

177 o two fragments, p7 and tBid (p15), that are held together by strong hydrophobic interactions until t

178 a helical, head-to-tail polymeric structure held together by strong intermolecular contacts, providi

179 In particular, highly porous frameworks held together by strong metal-oxygen-carbon bonds and wi

180 ical packing of both nanotubes is identical, held together by strong pi-stacking interactions.

181 gands, but here the "multidentate ligand" is held together by supramolecular rather than covalent bon

182 ugh contact sites, areas of close apposition held together by tethering molecules.

183 or substituted oligophenylenevinylene dimers held together by the [2.2]paracyclophane core were synth

184 Shear-stress values for glass held together by the adhesive reach 0.51+/-0.10 MPa, whe

185 products of eukaryotic DNA replication, are held together by the chromosomal cohesin complex after t

186 Replicated chromosomes are held together by the chromosomal cohesin complex from th

187 Sister chromatids are held together by the cohesin complex from the time they

188 ented decameric capsule in carbon disulfide, held together by the combination of double and triple hy

189 This polyion cushion was held together by the electrostatic attraction between CS

190 domain allows dissociation of substrate TMD, held together by the extracellular domain or loop.

191 The two fragments, which are held together by the gRNA 'splint', are then ligated.

192 Ground-state gold cluster cores were held together by the hydrogen-bonding network formed by

193 ediate in which a dsDNA break in host DNA is held together by the intervening viral DNA, and such a r

194 l structure of SauUSI reveals a stable dimer held together by the nuclease domains, which are spatial

195 arly mitosis, the duplicated chromosomes are held together by the ring-shaped cohesin complex(1).

196 ed with large multimeric signaling complexes held together by the scaffolding protein, INAD.

197 uctures of the head-to-head type, which were held together by the solvent molecules.

198 was indeed a dimer with two catalytic cores held together by the tau subunit.

199 e 5' and 3' fragments of cleaved RNA are all held together by thermolabile linkages, indicating the p

200 ividual tunneling nanotubes (iTNTs) that are held together by threads labeled with anti-N-Cadherin an

201 0-79), alpha5 (84-100) and alpha6 (107-125), held together by three disulfide bridges: 19-54, 50-108

202 Junctions that are held together by three hydrogen bonds per base pair (for

203 probably formed a less stable LDL tetramer, held together by three to four monoclonal antibodies.

204 r the AT trimer in which three AT chains are held together by three zinc atoms, each coordinated by t

205 ound that the legs of the R-peptide Env were held together by trimeric interactions at the very botto

206 tip link, a double stranded protein filament held together by two adhesion bonds in the middle.

207 ine interactions) are stiffer than junctions held together by two hydrogen bonds per base pair (for e

208 tein consisting of two antiparallel B chains held together by two interchain disulfide bonds.

209 ripodal, urea-based anion cryptates that are held together by two orthoester bridgeheads.

210 rotein in an arrangement that is intricately held together by two sodium ions.

211 The crossover junction is held together by two stacked G:C pairs at the central co

212 romosomes dissociate into 32 chromatid pairs held together by unreplicated regions.

213 ize in lamellar morphology, where layers are held together by van der Waals (vdW) interaction.

214 rine made of covalently bonded Cl2 molecules held together by van der Waals forces, and (iii) an arch

215 building blocks are vertically stacked, and held together by van der Waals interactions.

216 in reactivity of palladacycle intermediates held together by weak and strong coordination.

217 Because these aggregates are held together by weak forces operating over short distan

218 metal dichalcogenides consist of monolayers held together by weak forces where the layers are electr

219 demonstrate that P granules, like NPCs, are held together by weak hydrophobic interactions and estab

220 prising two-dimensional (2D) metallic sheets held together by weak interlayer van der Waals (vdW) int

221 The assemblies are held together by weak intermolecular forces and are dyna

222 tures made up of multiple synthetic subunits held together by weak intermolecular forces.

223 olecular crystals, in which repeat units are held together by weak non-covalent bonding, could genera

224 rge, (CH(4))(5)N(2) and (CH(4))(7)(N(2))(8), held together by weak van der Waals interactions.

225 olecules into a rhombohedral molecular unit, held together by what are probably weak chemical bonds.

226 jor scientific contributions into a tapestry held together by what I have learned from three colleagu

227 h the same 2D arrangement of Zn8R4 tetramers held together by Zn coordination.