ライフサイエンスコーパス: for correcting

1 and cytosine base editor/guide combinations for correcting 35 USH2A mutations.

2 ne base editing holds considerable potential for correcting a large fraction of pathogenic mutations.

3 major pathway in mammalian cells responsible for correcting a large number of chemically modified bas

4 uppression subject the patient to high risks for correcting a non-life-threatening condition.

5 nts serve as an effective biofeedback signal for correcting abdominophrenic dyssynergia and abdominal

6 Base excision repair is a major mechanism for correcting aberrant DNA bases.

7 Let-7 family miRNAs represent targets for correcting aberrant macrophage activation and mediat

8 duced exon skipping offers a powerful method for correcting alternative splicing defects in DM.

9 ure are more reliable than increases in FiO2 for correcting altitude-induced hypoxia in this model of

10 Transit data can be used for correcting and refining the orbital ephemerides of t

11 However, current options for correcting anemia are not without problems and prese

12 algorithms for measuring the anisotropy and for correcting artifacts caused by fluorescence bleachin

13 ntly outperformed other CNN-based approaches for correcting artifacts.

14 There are several options for correcting astigmatism at the time of cataract surge

15 eripheral corneal relaxing incisions (PCRIs) for correcting astigmatism in combination with monofocal

16 ection algorithm, called ECHO, is introduced for correcting base-call errors in short-reads, without

17 assessing, comparing, and selecting methods for correcting biases due to heterogeneous single-guide

18 An alternative approach for correcting blood-related diseases is the direct intr

19 The new intraocular lens options for correcting both near and distant vision through cata

20 this type of approach may prove to be useful for correcting certain protein folding abnormalities ass

21 an serve to level the cellular playing field for correcting CF-causing mutations, a leveling effect t

22 ory management systems and potential avenues for correcting cognitive disorders.

23 of red wines, considering them a useful tool for correcting colour loss before bottling.

24 IOL) implantation can be an effective method for correcting corneal astigmatism in patients with vitr

25 noise, and provide a mechanistic entry point for correcting decision-making abnormalities in disorder

26 is might be a potential therapeutic approach for correcting defective lung epithelium in cystic fibro

27 d to an alternative or a supplemental method for correcting defects in cardiac impulse generation, su

28 BaselineCorrector also provides an algorithm for correcting diffusion-edited NMR spectra.

29 otein fragments as a viable in vivo approach for correcting disease-causing misfolding of plasma memb

30 thin the context of gene-targeted strategies for correcting disease.

31 Moreover, it was safe and effective for correcting distance and near vision in these patient

32 r pathway in mammalian cells, is responsible for correcting DNA base damage and maintaining genomic i

33 trigger the DNA damage pathways responsible for correcting DNA crosslinks.

34 ir is a highly conserved pathway responsible for correcting DNA polymerase errors incorporated during

35 Although mismatch repair (MMR) is essential for correcting DNA replication errors, it can also recog

36 Adaptive optics (AO) is a powerful method for correcting dynamic aberrations in numerous applicati

37 nd peripheral D2-like receptors are required for correcting dysglycemia.

38 ligases with chemical ligands holds promise for correcting E3 malfunctions and repurposing the E3s f

39 cruits the aurora B kinase that is necessary for correcting erroneous attachments to the mitotic spin

40 t that Mps1 provides an additional mechanism for correcting erroneous kinetochore-microtubule attachm

41 omosomes may require compensatory mechanisms for correcting errors to avoid chromosomal instability.

42 olve the use of a variety of different tools for: correcting errors, adding missing atoms, filling va

43 death explores the creation of new therapies for correcting excessive or deficient cell death in huma

44 We developed 2DImpute, an imputation method for correcting false zeros (known as dropouts) in single

45 We derive a method for correcting false-positive probabilities for the larg

46 specific excitation wavelength are effective for correcting fluorescence and Raman IFEs induced by an

47 teractions and suggest new potential avenues for correcting folding defects caused by abrogation of t

48 g recombination rates, and provide no method for correcting for ascertainment biases.

49 The authors present a technique for correcting for exposure measurement error in the ana

50 this paper, we propose an efficient approach for correcting for multiple testing and assess eGene p v

51 some of the methods that have been proposed for correcting for multiplicity, including single-step p

52 ese discrepancies highlight (1) that methods for correcting for population stratification in GWAS may

53 We also examine one method for correcting for population structure (Genomic Control

54 We describe methods for correcting for racial misclassification among non-Hi

55 We also describe a new method for correcting for rearrangements that are not detected

56 is biased, and propose an analytical method for correcting for such bias.

57 A simple empirical method for correcting for the inner filter effect is shown to e

58 ion of +1 insertions, which has implications for correcting frameshift mutations.

59 leading to a simple model that could be used for correcting fuel effects in emission inventories and

60 iting technology offers promising approaches for correcting genetic causes of hereditary cardiovascul

61 he first time, which is a promising approach for correcting genetic defects associated with gain-of-f

62 es in somatic cells is an innovative therapy for correcting genetic deficiency diseases and augmentin

63 seful options in carefully selected patients for correcting high degrees of ametropia.

64 is rate-limiting for HCO3 (-) secretion and for correcting host defense abnormalities.

65 c-Met gene therapy could be useful for correcting human diabetic corneal abnormalities.

66 Finally, the algorithm is demonstrated for correcting human serum samples analyzed by Fourier-t

67 al time needed to program secondary saccades for correcting hypermetric errors, relative to hypometri

68 investigate the current prescribing patterns for correcting hyperopia among optometrists in clinical

69 nterference fringe provides a useful measure for correcting image-dipole-induced distortions.

70 ibute to potentially new therapeutic avenues for correcting impairments in sperm parameters and impro

71 ells offers a unique therapeutic opportunity for correcting insulin deficiency as it occurs in the pa

72 trong LD this method may be less informative for correcting inverted contigs than for identifying cor

73 heart disease and in the surgical techniques for correcting it.

74 these agents, but may be an important system for correcting key mutagenic lesions that could initiate

75 For correcting larger amounts of astigmatism, a combinat

76 al ablation continues to be highly effective for correcting low-to-moderate levels of astigmatism and

77 therapy is a promising therapeutic modality for correcting many genetic disorders, expanding in brea

78 le peak detection, and these are informative for correcting mass variation in the alignment step.

79 Here we present a method for correcting MeDIP-Seq results based on Random Forest

80 interpolar spindle microtubules is critical for correcting merotelic attachments.

81 od referred to as "reconstitutive refolding" for correcting misfolded DAGK is presented.

82 diting is often touted as a permanent method for correcting mutations, but its long-term benefits in

83 arises and uncovers a point of intervention for correcting myeloid skewed hematopoiesis.

84 Chamber Phakic Intraocular Lenses (PC-pIOLs) for correcting myopic anisometropic amblyopia in a pedia

85 ficacy, safety, and stability of Visian ICLs for correcting myopic anisometropic amblyopia in pediatr

86 We introduce CoLoRMap, a hybrid method for correcting noisy long reads, such as the ones produc

87 avin-dependent enzymes and serves as a model for correcting nonstoichiometric slopes in elucidating r

88 Base excision repair is responsible for correcting nucleobases damaged by oxidative stress,

89 1-2 Hz, the commonly-known cutoff frequency for correcting ocular aberrations.

90 red to enable convergence when off-route and for correcting on-route divergence.

91 Gene editing has shown promise for correcting or bypassing dystrophin mutations in Duch

92 t the user is also provided with suggestions for correcting or improving the data.

93 nt of this network has therapeutic potential for correcting organ failure without cell replacement.

94 The main pathway for correcting oxidized bases in DNA is base excision re

95 tRNAs (mc-tRNAs) as a potential therapeutic for correcting pathogenic missense mutations.

96 g and non-dividing cells, offering potential for correcting pathogenic mutations directly in organism

97 Genome editing holds great potential for correcting pathogenic mutations.

98 Genome editing holds promise for correcting pathogenic mutations.

99 The vestibular system is critical for correcting perturbations during voluntary movement.

100 Current association methods for correcting population stratification usually involve

101 approach is a powerful therapeutic strategy for correcting post-traumatic memory and seizure disorde

102 e or adjunct to corneal astigmatic incisions for correcting preexisting astigmatism in patients with

103 Gene therapy has been proposed both for correcting primary gene defects of muscle and as a w

104 The protocol also gives practical guidelines for correcting problematic sites by modifying the metal-

105 ein stabilizing agents are effective in vivo for correcting protein folding abnormalities.

106 rabismus and the use of frontalis suspension for correcting ptosis.

107 or limiting the effects of quantum noise and for correcting quantum flips.

108 ctacles are the most frequently used options for correcting refractive errors.

109 Options for correcting refractive surprises include piggyback in

110 corneal topography technologies and methods for correcting "refractive surprises" postoperatively.

111 n mismatch repair (MMR), the primary pathway for correcting replication errors.

112 ay represent promising pharmacologic targets for correcting retinopathy and EPC dysfunction.

113 rs, as well as new therapeutic opportunities for correcting RTK signaling output.

114 wer cost than existing barcode-based schemes for correcting sequencing errors.

115 To avoid costly worst-case redundancy for correcting sequencing/rewriting errors and to mitiga

116 e performance of several alternative methods for correcting similarity scores for library-sequence le

117 rovide an animal model for testing therapies for correcting splicing defects, we have used the "plug

118 In this paper, we develop methods for correcting statistical inference using outcomes pred

119 s have focused on globe-tethering procedures for correcting strabismus and the use of frontalis suspe

120 Here, a method is developed for correcting strict signal-to-noise thresholds, along

121 While a large number of methods specialized for correcting substitution errors as found in Illumina

122 phagy, development of therapeutic strategies for correcting such defects in obese individuals is chal

123 We provide guidelines for correcting such errors, show that our quality contro

124 Here, we present a sequence-based method for correcting tag-sequence-specific effects and show th

125 Here we introduce a simple guideline for correcting the artifacts of the QCM sensor response

126 s a post-transcriptional process responsible for correcting the coding sequences of many mitochondria

127 s, and an accurate and robust linear scaling for correcting the computed pK(a) values, we report here

128 pump inhibitors represent a potential target for correcting the cystic fibrosis defect.

129 We propose a simple method for correcting the different contributions of slightly d

130 Methods for correcting the estimated binding constants are propo

131 A highly accurate method for correcting the estimated sequences is introduced, an

132 t T cells bearing Fas ligand are responsible for correcting the gld defect.

133 Our "first-principles" prescription for correcting the half-life measured in solution to obt

134 of the tau gene and into possible strategies for correcting the imbalance in tauopathies caused by ch

135 ate the efficacy of recombinant adenoviruses for correcting the metabolic defect in liver.

136 EnImpute is useful for correcting the noisy scRNA-seq data before performin

137 loped an adenine base editing (ABE) approach for correcting the R249Q mutation and a cytosine base ed

138 uggest that GDNF is more effective than BDNF for correcting the rat model of PD, and that there are n

139 t the time and space expression requirements for correcting the rutabaga memory impairment.

140 Achieving this requires methods for correcting the sensor drift seen during in vivo plac

141 -in mouse model of SCD and tested a protocol for correcting the sickle mutation by homologous recombi

142 HbF/F-cell, and gene-modified HSCs required for correcting the sickle phenotype.

143 ice" and the implications of this definition for correcting the social ills that prejudice engenders.

144 Gene replacement represents a strategy for correcting the underlying defect.

145 erapeutic potential of allosteric modulation for correcting these deficits.

146 Computer-assisted OCT grading may be useful for correcting thickness measurements in cases with erro

147 The lack of tools for correcting this 'names problem' has become a fundame

148 Numerous methods have been described for correcting this partial verification bias or workup

149 Bat-Seq are among the most widely used tools for correcting those technical biases, called batch effe

150 t and lateralized neural substrates critical for correcting unexpected errors during ongoing movement

151 to dissociate the neural substrates critical for correcting unexpected trajectory errors and learning

152 ite tissue transplants, offers the potential for correcting untreatable large tissue defects.

153 nd-binding diversification and the potential for correcting unwanted specificities that arise.

154 s can also be measured continuously and used for correcting upcoming images.

155 ing could provide a new therapeutic approach for correcting various walking asymmetries.

156 e NADPH oxidase system is a promising target for correcting vasoreparative dysfunction in diabetic EP