ライフサイエンスコーパス: excitement

1 s for cardiac regeneration are causing great excitement.

2 lic engineering, are generating considerable excitement.

3 ng of complications has tempered the initial excitement.

4 ors (CAR T cells) has generated considerable excitement.

5 ion, brain-tumour imaging is producing great excitement.

6 timization problems has generated tremendous excitement.

7 stem cells (iPSCs) has generated significant excitement.

8 l superconductivity (TSC) has generated much excitement.

9 nvolves novelty, challenge, interest, and/or excitement.

10 KRAS(G12C) allele has generated considerable excitement.

11 tinum electrode triggered great interest and excitement.

12 depend on (i) trust and (ii) shared fun and excitement.

13 une system to cancer have generated enormous excitement.

14 in condensed-matter physics has created much excitement.

15 stem cells (iPSCs), has been met with great excitement.

16 dimensions of disorganization or grandiosity/excitement.

17 On the one hand, all agree there is much excitement about a noninvasive imaging examination that

18 y between workers decreased, and concern and excitement about AI temporarily rose.

19 As a result, there is much excitement about Big Data, but there is also a discussio

20 ore ChatGPT took the world by storm amid the excitement about generative artificial intelligence (AI)

21 Recently, there has been a great deal of excitement about new glucagon-like peptide 1 receptor (G

22 t curing HIV infection is possible, renewing excitement about research efforts.

23 he fastest growing fields and highlights the excitement about research, but it also demonstrates the

24 Finally, there has been much excitement about the ability of 6S RNA to be used as a t

25 There is growing excitement about the clinical use of artificial intellig

26 ntly correlated with both age and self-rated excitement about the high gain cue.

27 There is much excitement about the opportunity to harness the power of

28 There is much excitement about the possibility of harnessing stem cell

29 Despite excitement about the potential benefits of new genetic i

30 There is considerable excitement about the potential for epigenetic informatio

31 This has created excitement about the potential for expectations to modul

32 Recent advances have increased excitement about the potential for therapeutic productio

33 Despite considerable excitement about the potential of PET/MR imaging for the

34 ars in non-human primates has led to renewed excitement about the potential of this approach to allev

35 ies, publications in the past decade justify excitement about the potential to transform FUO investig

36 b-significant SNPs were included, leading to excitement about the prospect of analyzing large fractio

37 These properties have created tremendous excitement about the prospect of using stem cells from e

38 A revolution' it is hard not to share in the excitement about the rapidly unravelling biology of micr

39 tropospheric clouds on Titan has caused much excitement about the roles of surface sources of methane

40 ical relevance; it has, nonetheless, created excitement about their potential as molecular targets fo

41 The excitement about these unprecedented response rates, how

42 Recently, there has been excitement about using SNP data to estimate inbreeding (

43 Despite initial excitement, actual progress made by computational psychi

44 al lymphatic vessels have generated a lot of excitement, along with some degree of skepticism.

45 n systems and generated a sense of unity and excitement among the participants.

46 activated signaling technology produced both excitement and apprehension.

47 atest large language models has sparked both excitement and concern about advanced artificial intelli

48 lly trained in the task in question, causing excitement and concern about their use in healthcare set

49 Here, I discuss my excitement and concerns about the role that preprints ca

50 The excitement and controversy surrounding the potential rol

51 s termed enterotypes, has been met with both excitement and controversy.

52 ss on risk of depression have generated both excitement and controversy.

53 ler coaster, traveling through times of both excitement and despair.

54 ty of the transcriptome, there has been much excitement and development in deep learning (DL) because

55 e this type of design project could generate excitement and educational impact similar to robotics an

56 ew highlights these reports and captures the excitement and emerging synthetic utility of carbene cat

57 evelopment of these neurons has brought much excitement and encouragement to this field.

58 n the human heart has generated considerable excitement and enthusiastic research.

59 milieu may self-organize has generated much excitement and fervor in the cell biology community.

60 rs (PAMs) of mGlu5 have generated tremendous excitement and fueled major drug discovery efforts.

61 mmune cells by LOY tumor cells warrants both excitement and further experimental scrutiny.

62 (Abeta) for Alzheimer's disease have created excitement and have been heralded as corroboration of th

63 Over the last year, the great excitement and interest in the mechanism, epidemiology,

64 ally based therapies for RA has created real excitement and justifiable optimism in recent years amon

65 However, in the excitement and necessity of publishing the observations

66 rament traits assessed by dog owners, namely excitement and negative reactivity, were predictive of c

67 Despite longstanding excitement and progress toward understanding liquid-liqu

68 rapy is rapidly developing and has generated excitement and promise as well as confusion and at times

69 This was a time of great excitement and rapid progress.

70 es, evoking a feeling of shared intellectual excitement and rich personal ties.

71 ature of these chips have been met with both excitement and skepticism but have also brought up numer

72 the human genome has been greeted with both excitement and skepticism, and the potential of this acc

73 ID providers has never been greater and the excitement and variety in the practice of ID has never b

74 a few other studies raised tremendous hope, excitement, and curiosity in the field.

75 describe some of the background information, excitement, and implications of the recognition of T and

76 al Reviews chapter demonstrates the breadth, excitement, and sense of synergy among self-continuity r

77 lications of microarrays have generated much excitement, and some skepticism, within the biomedical c

78 Despite excitement around ProQ as a novel global RNA-binding pro

79 responsive to the environment, there is much excitement around the theme of epigenetic therapeutics,

80 There is significant excitement around using mTORC1 inhibitors to treat cance

81 icity and potency, has recently created much excitement as a drug lead.

82 ensional materials have generated tremendous excitement as a platform for achieving quantum propertie

83 -guided nucleases have gathered considerable excitement as a tool for genome engineering.

84 It has generated excitement as an optogenetics tool for the manipulation

85 onds between organic radicals have generated excitement as an orthogonal interaction for designing se

86 The excitement associated with these advances has been tempe

87 e range of disciplines, there was a palpable excitement at this conference brought about by the optim

88 ella emersonii It has generated considerable excitement because of its demonstrated potential as a to

89 ctures have emerged and triggered tremendous excitement because of their advantages over the two-dime

90 neuron subtypes, have generated significant excitement because of their potential to model more accu

91 ic and earliest Phanerozoic have caused much excitement because they preserve the earliest stages of

92 The invention of the laser generated great excitement, because its ability to create quantum state

93 it good?" and "do we need these things?" As excitement builds about the possibilities of generative

94 ristics not only have generated considerable excitement but also have identified several challenges.

95 ivity to phenotype has generated significant excitement, but clinical applications have largely not b

96 These initial studies have piqued our excitement, but they have also revealed gaps in our unde

97 After initial excitement, clinical trials using oral tolerance to trea

98 urafenib (VEM) and dabrafenib led to initial excitement due to high response rates and profound regre

99 eports of their in vitro derivation generate excitement due to potential applications in reproductive

100 ead iodide (CH3NH3PbI3) are generating great excitement due to their outstanding optoelectronic prope

101 eeks of each other in a climax of scientific excitement during the summer of 1961.

102 ar-old woman presenting initially with manic excitement followed by a lengthy period of mutism, immob

103 ontinuing medical education courses, loss of excitement for a disease in which therapies have not cha

104 nts in stem cell biology have generated much excitement for beta-cell replacement strategies; beta ce

105 th its wide-ranging applicability, hence the excitement for harnessing the rheology of active fluids

106 cape from predators and is a source of great excitement for humans.

107 Initial excitement for Natural Orifice Transluminal Endoscopic S

108 the flow of genetic information and ignites excitement for next-generation gene therapy tools.

109 n metal dichalcogenides (TMDCs) have spurred excitement for potential applications in optoelectronic

110 ons on specialized benchmarks have reignited excitement for quantum computers, yet their advantage fo

111 There has been considerable excitement for the development of cell replacement appro

112 Despite initial excitement for the potential of PARPi as single agent th

113 regulatory role of low-dose IL-2 has sparked excitement for the therapeutic exploration of modulating

114 l features in liquid biopsies have generated excitement for their potential as cancer biomarkers.

115 Despite the excitement generated by early clinical trials in autoimm

116 Despite the excitement generated by these unique roles for immune pr

117 The initial excitement generated in this area should continue to pav

118 is disease has been replaced by a measure of excitement, given recent therapeutic advances.

119 This excitement has been driven in large part by the success

120 ology and frustrating genetics, although the excitement has been steadily increasing as genetic obsta

121 Much of this excitement has centered on the species' reproductive bio

122 Much excitement has recently been generated by the discovery

123 Much excitement has surrounded recent breakthroughs in embryo

124 During the same time frame, excitement has surrounded the development of immunothera

125 Worth the excitement: Highly reactive oxygen and nitrogen species

126 Despite this excitement, however, very little is known about the prop

127 scale functional analyses are generating new excitement in biology and medicine.

128 MicroRNAs (miRNAs) are causing tremendous excitement in cancer research.

129 biology has generated enormous interest and excitement in fields as diverse as tissue engineering, r

130 into the function of these cells have fueled excitement in glial research, with enthusiastic research

131 effective treatments, there is much hope and excitement in leveraging recent genetic and molecular in

132 n at cryogenic temperatures has ignited much excitement in nanocatalysis.

133 ing the mechanisms of NF-kappa B activation, excitement in NF-kappa B research has been generated by

134 genome editing technique has generated much excitement in recent years owing to its ability to manip

135 higher diamondoids have thus generated much excitement in regards to their potential versatility as

136 Excitement in the 1980s over major genetic breakthroughs

137 There is excitement in the air for patients with vitiligo.

138 Stem cells have evoked considerable excitement in the animal-owning public because of the pr

139 perresolution microscopy has brought up much excitement in the biological research community.

140 These approvals have also renewed excitement in the development of therapeutics targeting

141 ivate philanthropists have also demonstrated excitement in the field by investing in the use of brain

142 Recently, there has been intense excitement in the field of cardiac arrhythmias.

143 of BCR-targeted therapies has promoted much excitement in the field of CLL.

144 The last 2 years have seen much excitement in the field of genetics with the identificat

145 at 26 K in LaOFeAs (F-doped) has renewed the excitement in the field of superconductivity.

146 A steady stream of research has fueled excitement in the field of synthetic biology.

147 Central to the excitement in the field of virus cell-to-cell transmissi

148 t article provides a glowing account for the excitement in the field, we stress that hierarchical pre

149 rocesses downstream of GPCRs generated great excitement in the field.

150 e S-layer assembly process are injecting new excitement in the field.

151 icrobial counterparts, triggering a surge of excitement in the fields of mucosal immunology and micro

152 have had impact on drug development, fueling excitement in the lay public about the prospects of appl

153 mber of other laboratories and created great excitement in the low-temperature condensed-matter commu

154 sed on B cells have created an atmosphere of excitement in the MS community.

155 ts attributed to 'glomalin' have caused much excitement in the plant and soil health community; howev

156 rus (AAV) gene therapies are generating much excitement in the rare disease field, particularly for p

157 These findings sparked great excitement in the renal community, implying that abatace

158 raction in metamaterials has generated great excitement in the scientific community.

159 to capture the wide range of activities and excitement in this area, and speculate on possible futur

160 As excitement in this field has grown, several companies ha

161 The initial excitement in this young field has led to the developmen

162 difficult to solve; nevertheless, increasing excitement is apparent in this novel therapeutic field,

163 This excitement is well founded, as demonstrated by 90% relap

164 But excitement notwithstanding, there is a long way to go in

165 family and personal life, and just share the excitement of being a scientist and how science continue

166 These in vitro findings bring pause to the excitement of combination therapies, highlighting the im

167 I have experienced the excitement of discovering a number of important enzymes

168 There is nothing quite like the excitement of discovery in science-of finding something

169 y the process of scientific research and the excitement of discovery.

170 Digital phenotyping combines the excitement of fast-paced technologies, smartphones, clou

171 The excitement of finding a cancer modulator which is either

172 emonstrate the process of doing science, the excitement of scientific discovery, or how new scientifi

173 Throughout my career I enjoyed the excitement of solving basic scientific problems.

174 f biophysics in the 54 years since the first excitement of the myoglobin and hemoglobin structures in

175 acterial Neural Networks fully reflected the excitement of this field.

176 The excitement of this metabolic group lies not only in the

177 from RA Fisher's seminal work to the current excitement of whole-genome association studies (WGAS).

178 Despite the initial excitement over cancer vaccines, the clinical effectiven

179 While initial excitement over metal-organic frameworks (MOFs) and cova

180 Excitement over the breakthroughs these tools have enabl

181 Recent years have seen much excitement over the possibility that adult mammalian ste

182 es of a variety of organs has generated much excitement over the possible use of hES cells in therape

183 Despite considerable excitement over the potential functional significance of

184 nd were associated with higher happiness and excitement ratings.

185 Recent excitement regarding immune clearance of intracellular m

186 ffects on synaptic plasticity and the recent excitement regarding the neuroprotective effects of oest

187 interesting elastic behaviour has generated excitement regarding their potential applications as it

188 Despite tremendous excitement related to extracellular vesicles-associated

189 This excitement revolves around at least 4 significant attrib

190 impulsivity, specifically impulsiveness and excitement seeking, were associated with higher levels o

191 This is unsurprising given the excitement stimulated by potential therapeutic intervent

192 While there is much excitement surrounding new high-technology diagnostics,

193 Although the excitement surrounding PARP inhibitors might certainly b

194 Resultant excitement surrounding regenerative medicine in the hear

195 nvestigators to capture some of the newfound excitement surrounding the ChP-CSF system.

196 The excitement surrounding the continued exploration of the

197 e latter, the ongoing scientific efforts and excitement surrounding the role of the neuroimmune syste

198 Excitement surrounding this relatively recently identifi

199 ing challenging research came from the great excitement that arose when we were close to understandin

200 irections, the field is experiencing renewed excitement that mutant RAS may finally be conquered.

201 It is with great humility and excitement that we assume the mantle of the leading tran

202 trendy pastime and, from amid the noise and excitement, the astrocyte emerges as a beguiling compani

203 It brought excitement, the promise of subsequent research breakthro

204 While this technique has generated great excitement, the underlying technologies (isobaric labeli

205 notable advances that met with considerable excitement, they have been quenched by surprising vacill

206 lthough these approaches have generated much excitement, they still lack absolute success.

207 rred by his work, which continues to inspire excitement today.

208 Yet, excitement towards the therapeutic potential of manipula

209 A few years later, excitement with APL was further enhanced by the discover

210 st year we began using Twitter to convey our excitement with the biological sciences, and discovered

211 ted interferon lambda, and REP-2139 creating excitement with this viral infection.

212 on to exercise has generated a great deal of excitement within a number of different fields including

213 y that these new frontiers have caused great excitement within the sensing community not only due to

214 that these new frontiers have caused further excitement within the sensing community.