ライフサイエンスコーパス: degeneracy

1 via several different molecular pathologies (degeneracy).

2 t react with a variety of different ligands (degeneracy)?

3 erials, inversion symmetry protects the spin degeneracy.

4 isms that possess mammalian-like splice site degeneracy.

5 and systems with significant chemical-shift degeneracy.

6 gas of rubidium-87 ((87)Rb) atoms to quantum degeneracy.

7 r further cooling into the regime of quantum degeneracy.

8 main driving mechanism for the occurrence of degeneracy.

9 gle nucleotides in the DNA target, with some degeneracy.

10 ts can be used to define both complexity and degeneracy.

11 rrents induced by the lifting of spin/valley degeneracy.

12 ed by alloying with MgTe to control the band degeneracy.

13 , and observe that frustration induces extra degeneracy.

14 ng in bilayers occurs without lifting valley degeneracy.

15 cold molecular gas prepared close to quantum degeneracy.

16 have this dispersion, giving rise to valley degeneracy.

17 nt with the breaking of the threefold valley degeneracy.

18 usually come with multiple flavors or valley degeneracy.

19 kDa) owing to the problem of chemical shift degeneracy.

20 ligands and thus show 'polyspecificity', not degeneracy.

21 by T cells can exhibit both specificity and degeneracy.

22 ensity interaction gives rise to topological degeneracy.

23 give rise to frustration and thus result in degeneracy.

24 minal half exhibits a considerable degree of degeneracy.

25 ixing and, hence, covalency driven by energy degeneracy.

26 nd T cell receptors (TCR) reveals remarkable degeneracy.

27 stemming from the direct band-gap and valley degeneracy.

28 racy that interconnects 1D lines with double-degeneracy.

29 nlikely topological because of the near spin degeneracy.

30 turbed system and the resulting quantum near-degeneracy.

31 demonstrates a selective basis for metabolic degeneracy.

32 Protein Data Bank (PDB), finding remarkable degeneracy.

33 in optical lattices, and through accidental degeneracy.

34 bitrarily high-order accuracy away from such degeneracies.

35 ionality of the topologically protected band degeneracies.

36 nt to lift both the spin and the Dirac Cones degeneracies.

37 polaritons which have non-Hermitian spectral degeneracies.

38 erry phase is associated with these spectral degeneracies.

39 (PbSe and PbTe) benefit from the high valley degeneracy (12 or more at high temperature) of the valen

40 State degeneracy also broadens the photoluminescence linewidth

41 Non-Hermitian degeneracies, also known as exceptional points, have rec

42 predict; frustration can lead to macroscopic degeneracies and qualitatively new states of matter.

43 f band gap, carrier effective mass, and band degeneracy and convergence.

44 ically, it has been known that breaking spin degeneracy and effectively realizing spinless fermions i

45 To limit degeneracy and increase experimental sensitivity, we com

46 l graphic representation resolves sequences' degeneracy and is mathematically proven to eliminate cir

47 further our understanding of T-cell receptor degeneracy and might one day provide a direct link betwe

48 i-RRM domain proteins to assess binding site degeneracy and multifactorial splicing regulation.

49 ller distortion that removes the ground term degeneracy and reduces the effects of the first-order sp

50 can primarily be attributed to genetic codon degeneracy and signal peptidase cleavage preferences.

51 demonstrate a way to decrease the band-edge degeneracy and single-dot photoluminescence linewidth in

52 We classified AREs according to their degeneracy and their transcriptional involvement.

53 he angles are processed to resolve a twofold degeneracy and to select an overall rotation around the

54 We leverage codon degeneracy and type IIs restriction enzymes to generate

55 es of graphene, which exhibits electron-hole degeneracy and vanishing carrier mass near the point of

56 stems with a higher degree of chemical shift degeneracy, and to study dynamic phenomena such as slow

57 transition metal complexes in which orbital degeneracies are not broken by Jahn-Teller or Renner-Tel

58 As a consequence of degeneracies arising from crystal symmetries, it is poss

59 less chiral charge carriers and the fourfold degeneracy arising from their spin and valley degrees of

60 nteractions but conformational entropies and degeneracies as well.

61 toxicity lead to selection for this apparent degeneracy as it is beneficial to facultative methylotro

62 mechanism are designed to provide a form of degeneracy as protection against injury, disease, or age

63 natural setting to study such non-Hermitian degeneracies, as they feature resonant modes and a gain

64 Binding of cAMP eliminates this degeneracy, as it selectively stabilizes the active conf

65 ate of encapsulated ortho water has a lifted degeneracy, associated with symmetry-breaking of the wat

66 s of fermions arise, differentiated by their degeneracies at and along high-symmetry points, lines, a

67 stal structural blocks in real space or band degeneracy at certain points in reciprocal space.

68 structure correlated well with the level of degeneracy at different peptide positions.

69 ersal or inversion symmetry breaking to lift degeneracy at Dirac points.

70 latter as a result of possessing a high spin-degeneracy at finite low temperatures--making them the v

71 the magnetic field increases, reaching near degeneracy at nonzero magnetic field.

72 ymmetry, which emerges from the bound states degeneracy at quarter filling.

73 e CoSb3 is typically attributed to threefold degeneracy at the conduction band minimum accompanied by

74 ed by conical intersections corresponding to degeneracy between doublet surfaces.

75 nd ligand recognition and suggest functional degeneracy between mCD33 and the other CD33-related Sigl

76 ization, we find that ASR enters a region of degeneracy between the first and second excited states n

77 For these planets, there is a degeneracy between the mass and composition of both the

78 Breaking the degeneracy between these models requires obtaining const

79 presence of a conical intersection (point of degeneracy between two Born-Oppenheimer electronic poten

80 mental and specific isotopic labeling reduce degeneracy, but experiments to measure long-range intera

81 urn has stimulated attempts to engineer such degeneracy by adopting low-dimensional nanostructures.

82 Lifting the valley degeneracy by Zeeman splitting has been demonstrated rec

83 ion properties of second-order non-Hermitian degeneracies can provide a means of enhancing the sensit

84 Diabolical points (spectral degeneracies) can naturally occur in spectra of two-dime

85 ne, although the trend is dependent upon the degeneracy class of the codons.

86 ere we establish mathematical definitions of degeneracy, complexity and robustness that allow for the

87 We hypothesized that this CArG degeneracy contributes to cell-specific expression of sm

88 We use hybrid degeneracy-corrected vibrational perturbation theory to

89 s make up 99.9% of the motifs, the degree of degeneracy correlates negatively with validated transcri

90 along the wavevector Q = (pi, pi, pi), where degeneracy could induce sign-reversal of the pairing sym

91 are has been introduced to annotate spectral degeneracy, current approaches are unable to represent s

92 Use of a replicon library with codon degeneracy did allow identification of second site compe

93 ch as regulatory region type, motif sequence degeneracy, DNase accessibility and pairing genomic dist

94 ommonly made when interpreting mass spectral degeneracy do not hold in general.

95 elements to probe and tune effects of energy degeneracy driven covalency.

96 bilayers of MoTe2 without lifting the valley degeneracy, due to spin-valley-layer coupling.

97 pological properties, including ground-state degeneracy, edge physics and anyonic bulk excitations, b

98 rporates an extremely high level of receptor degeneracy, enabling each TCR to recognize multiple pept

99 r the mechanistic bases for this specificity/degeneracy enigma and also compare and contrast Ag recog

100 ymphocytes, marked individual differences of degeneracy exist in T cell recognition, with possible im

101 ld size, but a ground state with topological degeneracy for all system sizes larger than this thresho

102 ich highlights the importance of the orbital degeneracy for many-body states in bilayer graphene.

103 observation of the breaking of nuclear spin degeneracy for the 1S0 and 3P0 optical clock states of 8

104 Quantum degeneracy has been reached in spherically symmetric, S-

105 However, the extent of such TCR degeneracy has never been fully quantified.

106 While theoretical considerations of degeneracy have been well established in neural networks

107 e two heptapeptide motifs could exhibit high degeneracy if coded by separate nucleotide sequences, an

108 s, these are independent, resulting in large degeneracies in atomic spectra.

109 nct combination of spin, valley, and orbital degeneracies in bilayer graphene is predicted to produce

110 modifies the structure of modes and spectral degeneracies in exciton-polariton systems, and, therefor

111 rk paves the way for utilizing non-Hermitian degeneracies in fields including photonics, optomechanic

112 observations of the moment of inertia, break degeneracies in gravitational wave detection to measure

113 Degeneracies in physical and biological systems can be l

114 s benefited greatly from previously observed degeneracies in structure.

115 Degeneracies in the conformational solution space were m

116 tunity, with future measurements, to resolve degeneracies in the parameters describing the central gr

117 Such degeneracies in the single-particle spectrum strongly en

118 rm mid-gap bound states with spin and valley degeneracies in the vicinity of a Coulomb impurity.

119 mber of 2000 atoms, 1400 atoms reach quantum degeneracy in 300 milliseconds, as confirmed by a bimoda

120 The calculation of degeneracy in a biological network is a useful metric fo

121 Ground-state degeneracy in AgSbTe2 leads to the natural formation of

122 Our results remove degeneracy in angles and the appearance of nontilting le

123 Protocols for attaining quantum degeneracy in atomic gases almost exclusively rely on ev

124 for the phenomena of immunodominance and MHC degeneracy in both types of responses and constrains vac

125 Degeneracy in eukaryotic translation initiation is evide

126 It tolerates limited degeneracy in its target sequence, including substitutio

127 Here we outline sources of peak degeneracy in mass spectra that are not annotated by cur

128 lize spinless fermions by splitting the spin degeneracy in momentum space.

129 findings reiterate the prevalence of partial degeneracy in plant signaling networks that regulate res

130 ations suggests a mechanism for the observed degeneracy in pMHC recognition by TCR and may contribute

131 el in which CD70 expressed on T cells causes degeneracy in T cell responses and undermines tolerance

132 Conformational degeneracy in the dendrimers resulted in effective preor

133 ance to overall neuronal activity because of degeneracy in the function of multiple conductances and

134 Degeneracy in the genetic code, which enables a single p

135 xperiment that resolves (15)N chemical shift degeneracy in the indirect dimension.

136 ious observations that there is considerable degeneracy in the length of peptides that can bind I-E(d

137 w the first direct evidence of lifted valley degeneracy in the monolayer TMD WS2.

138 Our results reveal extensive degeneracy in the PhoQ-PhoP interface and epistasis, wit

139 primers color-coded to reflect the level of degeneracy in the primer.

140 The apparent discrepancy between observed degeneracy in the recognition of single amino acid-subst

141 tly, however, the use of TALEs is limited by degeneracy in the site-specific manner by which they rec

142 s of the N-terminal half of the AhR, and the degeneracy in the transactivation domain between the mAh

143 le currents, implying a need for ion channel degeneracy in the tuning of neuronal properties.

144 Lifting the valley degeneracy in these materials is of great interest becau

145 ts have observed the lifting of the fourfold degeneracy in very large applied magnetic fields, separa

146 mponents with overlapping functionality (i.e degeneracy) in organisms.

147 Since the degree of chemical shift degeneracy increases with protein size, the use of 4D NO

148 CSs that can be used to raise conformational degeneracies inherent to different data types, and apply

149 ns across that sequence and to the amount of degeneracy inherent in individual codons.

150 Quantum corrections break the classical degeneracy into a set of aperiodic spin configurations f

151 form within the Landau levels and lift these degeneracies is unclear at present and is a topic of int

152 Hence, level degeneracy is a thermodynamic resource that may effectiv

153 Rather than "induced-fit" binding, NKG2D degeneracy is achieved using distinct interaction mechan

154 The degeneracy is broken when the molecule is contacted to t

155 Such degeneracy is critical to explain the sensitivity of CBD

156 ately for potential laser applications, this degeneracy is incompletely lifted in the valence band, s

157 This focussing mechanism means that TCR degeneracy is inherently dynamic, allowing each TCR clon

158 ctive Ag, Cu, and Ni, the polymorphic energy degeneracy is lifted and a particular planar structure i

159 ubly degenerate at ambient pressure, but the degeneracy is lifted at high pressures.

160 structure to two excitonic eigenmodes whose degeneracy is lifted by a large approximately 0.71 meV c

161 This degeneracy is lifted within Si quantum wells clad betwee

162 We show that such degeneracy is modulated by the preorganized structure of

163 es a controllable break in the symmetry, the degeneracy is removed and the two modes couple, exchangi

164 The seam of three-state degeneracies joins two two-state seams of conical inters

165 nced when operated at non-Hermitian spectral degeneracies known as exceptional points.

166 that the system possesses a specific type of degeneracy known as an exceptional point.

167 iard exhibit multiple non-Hermitian spectral degeneracies, known as exceptional points.

168 n, valley isospin, and an accidental orbital degeneracy, leading to a complex phase diagram of broken

169 wever, spin-orbit interactions lift the spin degeneracy, leading to a Rashba metal whose Fermi surfac

170 agnetic anisotropy results from this orbital degeneracy, leading to single-ion magnet (SIM) behavior.

171 ideally trigonal Ni(II) complex, the orbital degeneracy leads to a first-order spin-orbit coupling th

172 However, network degeneracy leads to a large number of flux distributions

173 The requirement for degeneracy leads to a number of conjectures.

174 n mass spectrometry-based metabolomics, this degeneracy leads to inflated false discovery rates, data

175 ur study suggests that organisms can exploit degeneracy lifting as a general strategy to adapt protei

176 NM, like many large proteins, chemical shift degeneracy limits the usefulness of this approach.

177 ding many codons for a single amino acid) or degeneracy (many anticodons binding many codons for a si

178 ly degenerate free-energy landscape and such degeneracy maximally amplifies the response to weak ( ap

179 These results illuminate how genetic code degeneracy may function to specify properties beyond ami

180 Degeneracy means that several different molecular pathol

181 Our data also suggest a second degeneracy mechanism within the protein itself, which in

182 The codon-degeneracy model (CDM) predicts that patterns of nucleot

183 Degeneracy of 3A6, manifested by recognition of superago

184 the n-type versions are limited to a valley degeneracy of 4 in the conduction band.

185 n heavy actinide interactions stems from the degeneracy of 5f orbitals with ligand molecular orbitals

186 Here, we derive the average conformational degeneracy of a lattice polypeptide chain in water and q

187 e have revealed the lifting of a vibrational degeneracy of a mode of PDI on Ag(111) and Ag(100) surfa

188 tly observed as a splitting of the four-fold degeneracy of a single electron in ultra-clean quantum d

189 al-gain media are complicated by a non-unity degeneracy of band-edge states, because of which multiex

190 ic regulator binding, burst-like expression, degeneracy of binding motifs and massive regulatory rewi

191 t reductions in myocardin expression and the degeneracy of CArG elements within smooth muscle promote

192 The degeneracy of codons allows a multitude of possible sequ

193 ed, leading to strong frustration and a near degeneracy of different ground states.Materials with a K

194 Colloidal quantum dots (CQDs) feature a low degeneracy of electronic states at the band edges compar

195 ffect and spin-orbit coupling in lifting the degeneracy of frontier orbitals in highly symmetric thal

196 me active site, is a result of the increased degeneracy of inhibitor binding states, allowing effecti

197 The degeneracy of interface space is largely due to the pack

198 great interest because lifting the energetic degeneracy of left- and right-handed spin textures in ma

199 systems and suggest either through the near-degeneracy of nearby electronic phases or direct carrier

200 Due to degeneracy of nucleotide content among binding site inst

201 d two mechanisms that are suited to lift the degeneracy of partially filled electronic states and to

202 The high degeneracy of protein sequences and broad expansion of e

203 ly enhanced, resolving a high degree of mass degeneracy of proteolytic peptides derived from the comp

204 TLs resembled those derived from patients in degeneracy of recognition and functional avidities for b

205 We infer that the degeneracy of specific Fis binding sites results from th

206 Strong spin-orbit coupling lifts the degeneracy of t 2g orbitals in 5d transition-metal syste

207 ic memory T cells, by virtue of the inherent degeneracy of T-cell receptor recognition of peptide:maj

208 ons might influence rejection, including the degeneracy of TCR recognition leading to cross-reactive

209 re intimately related to the low temperature degeneracy of the (originally) moment bearing ion.

210 This transition maintains the threefold degeneracy of the active orbitals in both competing elec

211 The degeneracy of the amide (1)H and (15)N shifts of the tet

212 ong the valleytronics parameters such as the degeneracy of the band, intervalley transitions, effecti

213 The high symmetry and resulting electronic degeneracy of the C(60)(3)(-) anion is viewed as the key

214 peptide-binding cleft, despite the apparent degeneracy of the CAL binding motif.

215 This degeneracy of the cell response can be linked to the ini

216 the maintenance of mRNA secondary structure, degeneracy of the code allows regulation of stability an

217 Unfortunately, the orbital (valley) degeneracy of the conduction band of bulk Si makes it di

218 alkoxide groups in a plane, which breaks the degeneracy of the d-orbitals and favors oxidation.

219 Finally, we note that the degeneracy of the genetic code allows competing 3' splic

220 The degeneracy of the genetic code allows nucleic acids to e

221 The degeneracy of the genetic code allows protein-coding DNA

222 ction of cognate amino acid supply, lift the degeneracy of the genetic code by splitting codon famili

223 Here we show that the degeneracy of the genetic code is lifted by environmenta

224 ghts into how biological systems exploit the degeneracy of the genetic code to control gene expressio

225 Breaking the degeneracy of the genetic code via sense codon reassignm

226 Owing to the degeneracy of the genetic code, a protein sequence can b

227 Due to the degeneracy of the genetic code, most amino acids can be

228 Owing to the degeneracy of the genetic code, protein-coding regions o

229 approaches 1; it effectively side-steps the degeneracy of the genetic code.

230 only in a hexagonal rotor network due to the degeneracy of the ground-state dipole rotational energy

231 Coulomb interactions break the degeneracy of the Landau levels and can cause the electr

232 h spin symmetry, leads to a fourfold quartet degeneracy of the Landau levels, observed as peaks in th

233 serine (S) residues in KSKRSRR, despite high degeneracy of the motifs in the absence of co-evolutiona

234 This degeneracy of the NBSs is very intriguing and needs expl

235 et gaps resulting from a strong break in the degeneracy of the p orbitals on the formal nitrenium/oxe

236 ith the size of the promoter regions and the degeneracy of the patterns makes their identification di

237 magnitude higher, which we attribute to the degeneracy of the positronium states.

238 Perfect degeneracy of the primary and secondary vibration modes

239 Degeneracy of the recognition elements in the ComA-bindi

240 ereby a chiral substituent ((s)Bu) lifts the degeneracy of the resultant salts.

241 The spin degeneracy of the Shockley state breaks down below ~90 K

242 red Jahn-Teller-like as it lifts the orbital degeneracy of the square planar, d(7), Co(II) centers, d

243 ltaneously satisfied, giving rise to a large degeneracy of the system ground state.

244 We found that there was plasticity or degeneracy of the TCR reactive with these lupus autoanti

245 s that such a distortion lifts the energetic degeneracy of the two valence tautomers, while not affec

246 ngineering approach to break the biochemical degeneracy of these enzymes.

247 The length and degeneracy of these motifs results in their frequent occ

248 ell closure at Z = 14 (14 protons), the near degeneracy of two different (s(1/2) and d(3/2)) proton o

249 etic phases that further highlights the near-degeneracy of various magnetic states.

250 te and allow for insight into the effects of degeneracy on the thermodynamic and transport properties

251 osely related dynamics without breaking spin degeneracies, opening up applications in materials conta

252 h from experimental noise and high levels of degeneracy or codependency in parameters, is often uncle

253 This transient degeneracy, or flickering electronic resonance among sta

254 nd to assist with the fundamental problem of degeneracy (overlapping reflections) which is intrinsic

255 n cool down below the temperature of quantum degeneracy owing to their long lifetimes.

256 strength is sustained at the singlet-triplet degeneracy point.

257 While the degeneracy points in Weyl semimetals are robust against

258 blockade regime and decreases at the charge degeneracy points, while remaining temperature-independe

259 tron-phonon coupling in the vicinity of band degeneracy points.

260 The algorithm solves the degeneracy problem by applying spherical averaging for o

261 tral complexity and number of chemical shift degeneracies reduce the number of unambiguous NOE assign

262 a few exceptions, the achievement of quantum degeneracy relies on evaporative cooling of magnetically

263 For the IIA(Mtl)-HPr complex, twofold degeneracy remains, and the structures cluster into two

264 ly 90% of the peptides with a B44 supermotif degeneracy score of >10 bound at least three of the six

265 rmotif and a novel algorithm for calculating degeneracy scores that can be used to predict B44-supert

266 (or conduction) bands to achieve high valley degeneracy should be a general strategy in the search fo

267 rongly linked with the transformation of the degeneracy space.

268 and characteristics, and for examining mode degeneracy, spatial asymmetry and other effects, which c

269 the spin relaxation time and the sub-lattice degeneracy splitting at zero magnetic field.

270 We discuss possible T2N application in degeneracy studies.

271 by the lesser of the binding energy and the degeneracy temperature of the bosons.

272 and its bilayer counterpart exhibit multiple degeneracies that arise through inherent symmetries.

273 revealed thousands of previously unreported degeneracies that reduced the number of unique analytes

274 ations to demonstrate that it is the orbital degeneracy that allows the superconducting cubic A3C60 f

275 A responses along a continuum of specificity/degeneracy that defines the IgA repertoire to gut symbio

276 ly charged quasiparticles and a ground-state degeneracy that grows exponentially as these quasipartic

277 fically, it consists of 0D nexus with triple-degeneracy that interconnects 1D lines with double-degen

278 Despite this degeneracy, the solution space of rate constants almost

279 udies have been devoted to such higher-order degeneracies, their experimental demonstration in the op

280 cooled down below the temperature of quantum degeneracy, they can spontaneously form a coherent state

281 This material combination allows spin degeneracy to be lifted without destroying superconducti

282 and highlights the enormous potential of TCR degeneracy to be the causative factor in autoimmune dise

283 ractions lift the six-fold Landau level (LL) degeneracy to form three valley-polarized quantum Hall s

284 is vein, it is well known that a high valley degeneracy (typically </=6 for known thermoelectrics) in

285 y steering it to an exceptional point (EP)-a degeneracy universally occurring in all open physical sy

286 ssemblies were highly ordered but structural degeneracy was evident in multilayers.

287 overcome the problem of (15)N chemical shift degeneracy we developed a heteronuclear zero-quantum (an

288 (MHC) recognition and T-cell receptor (TCR) degeneracy, we determined the crystal structure, at 2.8

289 s correspond to isolated points of bulk band degeneracy, Weyl nodes, which are connected only through

290 hat redundant components will not yield high degeneracy whereas compensatory mechanisms established b

291 re of a Dirac cone resulting from accidental degeneracy, whereas the complex eigenvalues of the syste

292 ping can drive exciton-polaritons to quantum degeneracy, whereby they form a macroscopically populate

293 By combining degeneracy with optimal primer reuse the user may increa

294 d intrinsic phase response, and suggest that degeneracy with reference to several coexisting function

295 ersurfaces in the reaction, and an S(0)-T(1) degeneracy with SOC for the critical diradical.

296 with a significant increase in An 5f energy degeneracy with the dipicolinate molecular orbitals for

297 n used; however, there is an issue regarding degeneracy with these properties, as native and nonnativ

298 identified, including solids with high band degeneracy, with cages in which atoms rattle, with nanos

299 and to better ascertain the significance of degeneracy within the PpsR binding sequence in vivo, we

300 It shows an exotic configuration of degeneracies without a well-defined dimensionality.