ライフサイエンスコーパス: cellular biology

1 propose an alternative mechanism grounded in cellular biology.

2 nerative valve disease in terms of an active cellular biology.

3 zing and extending traditional molecular and cellular biology.

4 of research fields from materials science to cellular biology.

5 istic information on regulatory networks and cellular biology.

6 xity in the modes by which PTEN can regulate cellular biology.

7 ortant for regulating nearly every aspect of cellular biology.

8 zation of the corneal stroma environment and cellular biology.

9 m represents a fundamental actuating unit in cellular biology.

10 in condensates have multifunctional roles in cellular biology.

11 se insights are shaping our understanding of cellular biology.

12 nstrating a path from prebiotic chemistry to cellular biology.

13 of lactate that critically shape and impact cellular biology.

14 lly assess how these interactions may affect cellular biology.

15 Interactions between biomolecules govern cellular biology.

16 ll multi-modal foundation models and spatial cellular biology.

17 ation is integral to symbiont metabolism and cellular biology.

18 lycoRNA, has gained considerable interest in cellular biology.

19 are having a growing impact on molecular and cellular biology.

20 can uniquely contribute to microbiology and cellular biology.

21 cal probe set can be used to interrogate GAK cellular biology.

22 ncreasing for applications in structural and cellular biology.

23 o discover new facets of signaling events in cellular biology.

24 n the environment is an important feature of cellular biology.

25 its our understanding of their molecular and cellular biology.

26 ing appreciated as a regulatory mechanism in cellular biology.

27 precisely Pcc1-mediated dimerization impacts cellular biology.

28 of chaperon disability by these mutations in cellular biology.

29 ical developments are unifying molecular and cellular biology.

30 for function and thus play critical roles in cellular biology.

31 ion for investigating RNA-modification-coded cellular biology.

32 scence microscopy has revolutionized in vivo cellular biology.

33 sm for the study of eukaryotic molecular and cellular biology.

34 ection has led to advances in both viral and cellular biology.

35 microRNAs (miRNAs) are fundamental to cellular biology.

36 d perhaps even as an organizing principle in cellular biology.

37 ovide a precise and multifunctional tool for cellular biology.

38 play crucial roles in almost all aspects of cellular biology.

39 genomics is emerging as an important tool in cellular biology.

40 o explore myriad phenomena in organismic and cellular biology.

41 ow recognized as a ubiquitous part of normal cellular biology.

42 cells have contributed much to the field of cellular biology.

43 n body (hLO), each having a distinct role in cellular biology.

44 ganization are major tenets of molecular and cellular biology.

45 -a-chip devices or as dynamic substrates for cellular biology.

46 e SMN protein with regards to SMA as well as cellular biology.

47 coding RNAs (lncRNAs) play numerous roles in cellular biology and alterations in lncRNA expression pr

48 that cover several domains of molecular and cellular biology and are freely available for community

49 Indeed, much of our knowledge about basic cellular biology and biochemistry was acquired through t

50 , is an important architectural principle of cellular biology and biochemistry.

51 Ns) are designed to aid our understanding of cellular biology and can be used to generate testable hy

52 ycle at the single-cell level is crucial for cellular biology and cancer research.

53 We highlight the cellular biology and clinical biology of analogs, drug r

54 s of creating visual models in molecular and cellular biology and consider steps to enable researcher

55 are projected to propel our understanding of cellular biology and disease.

56 , with implications for our understanding of cellular biology and drug discovery.

57 membranes underlie diverse processes across cellular biology and engineering.

58 s as an indispensable tool for molecular and cellular biology and for the emerging field of systems b

59 ers to understanding their vast functions in cellular biology and fully realizing their applications

60 pplicability of foundation models to advance cellular biology and genetic research.

61 allostery using as examples key proteins in cellular biology and human diseases such as kinases, ubi

62 Sialidases are therefore orchestrators of cellular biology and important therapeutic targets for v

63 ries that have widely informed molecular and cellular biology and justifies continuing research as an

64 ymers offers groundbreaking possibilities in cellular biology and medical research, allowing for nove

65 , fitting broad applications in the field of cellular biology and medical research.

66 provides a powerful tool for unraveling the cellular biology and molecular pharmacology of both natu

67 cellular location have a profound impact on cellular biology and offer feasible hypotheses about how

68 in vivo approaches for studying quantitative cellular biology and organismal dynamics.

69 Hence, our tool expands our knowledge of cellular biology and physiology by enabling access to ph

70 s to encode microproteins that contribute to cellular biology and physiology.

71 role of CRL ubiquitylation in all aspects of cellular biology and provides a set of proteins likely t

72 y member in the Departments of Molecular and Cellular Biology and the College of Natural Resources at

73 ns given the diverse role of FOX proteins in cellular biology and tumorigenesis.

74 their intestines by histology, molecular and cellular biology, and biochemistry approaches.

75 id transfer proteins have important roles in cellular biology, and fluorescence spectroscopy has foun

76 logist at the junction of clinical medicine, cellular biology, and molecular genetics.

77 se various aspects of structural modeling in cellular biology, and the prospects of future developmen

78 st importance to many areas of biochemistry, cellular biology, and virology.

79 nding proteins are fundamental to eukaryotic cellular biology, and Zn bioavailability may have been a

80 ild on strong foundations from molecular and cellular biology-and increasingly physical virology.

81 protein (GFP) has been used in a panoply of cellular biology applications to study protein transloca

82 enetic evidence supported by biochemical and cellular biology approaches sheds light on the circumsta

83 mphasizes the integration with molecular and cellular biology approaches to validate hypotheses deriv

84 Structural and cellular biology approaches, as well as several biophysi

85 olutionizing the fields of developmental and cellular biology as they pertain to the retina.

86 data demonstrate that mutations of CBL alter cellular biology at multiple levels and require not only

87 es have led to advancements in molecular and cellular biology-based technologies including genetic en

88 a better understanding of the molecular and cellular biology basis of monocyte-derived multinucleate

89 new research directions across biochemistry, cellular biology, bioengineering, and optics.

90 hways in mammalian cells are advancing basic cellular biology, biomedical research and drug discovery

91 truction and applications to biogeosciences, cellular biology, biotechnology, and astrobiology are di

92 ariety of applications in drug discovery and cellular biology by facilitating the characterization of

93 The family of AGC kinases not only regulates cellular biology by phosphorylating substrates but is it

94 2) Cellular biology (cellular models for preneoplastic dise

95 ceptor provides a useful tool for studies of cellular biology [corrected]

96 Together with cellular biology data showing ac(4)C-modified RNA in end

97 Recent advances in the molecular and cellular biology, diagnosis, and treatment of biliary tr

98 eraction networks in over 200 areas of human cellular biology, each including information from approx

99 ecent years for their roles in nanomedicine, cellular biology, energy storage and conversion, photoca

100 siology and anatomy, genetics, molecular and cellular biology, environmental health, and immunity.

101 d results should inspire new thinking on the cellular biology, evolution, and plasticity of the circu

102 vivo rat model frequently used in molecular/cellular biology for implant biomechanical studies.

103 An essential role for the AhR in cellular biology has been established previously, but no

104 The modern tools of molecular and cellular biology have refined our understanding of its p

105 Over the past three decades, molecular and cellular biology have undergone a profound transformatio

106 ides in signaling and metabolism relevant to cellular biology, health, and disease; and the technique

107 the Institute of Genetics and Molecular and Cellular Biology (IGBMC) in Strasbourg, France, and as o

108 Drawing parallels between language and cellular biology (in which texts comprise words; similar

109 MYC is known to regulate many aspects of cellular biology including glucose and glutamine metabol

110 ic culture and perturb features of mammalian cellular biology including mitochondrial function and re

111 ntral role in several fundamental aspects of cellular biology, including proliferation, differentiati

112 across the spectrum of molecular biology to cellular biology, involving fields such as cancer, devel

113 entire process of discovery in molecular and cellular biology is poised to change.

114 A major challenge in molecular and cellular biology is to map out the regulatory networks o

115 ultimedia materials to support molecular and cellular biology learning inside and outside the high sc

116 o address this question at the molecular and cellular biology levels, we initially screened different

117 n bioinformatics and network science helping cellular biology, medicine and drug design.

118 ical basis of DNA recording, what aspects of cellular biology might be recorded and how, and the type

119 NGLe provides access to unexplored realms of cellular biology, not obtainable with current approaches

120 Cellular biology occurs through myriad interactions betw

121 Despite their ecological significance, the cellular biology of AM fungi remains underexplored.

122 will require research into the molecular and cellular biology of C. immitis, vaccine development to p

123 Investigation into the molecular and cellular biology of carcinogenesis continues to elucidat

124 al studies have delineated the molecular and cellular biology of cholangiocarcinoma and gallbladder c

125 vide a concise overview of the molecular and cellular biology of clustered Pcdhs, highlighting how th

126 ave demonstrated far-reaching effects on the cellular biology of development and cancer.

127 a, we undertook a comprehensive study of the cellular biology of DISC1 in its full-length and disease

128 isciplinary, linking the basic molecular and cellular biology of fibrogenic cells to clinical trial d

129 The cellular biology of GAPs and how these divergent process

130 light current knowledge of the molecular and cellular biology of gastric adenocarcinomas, summarize t

131 e mouse to investigate the three-dimensional cellular biology of intrasynovial flexor tendon healing

132 nse that may contribute significantly to the cellular biology of lipid peroxidation.

133 ds are important tools for understanding the cellular biology of LRRK2 and for evaluating the potenti

134 This review focuses on the cellular biology of lysosomes and discusses the possible

135 riking differences between the molecular and cellular biology of mast cells in patients with mastocyt

136 ions of App are linked to the physiology and cellular biology of neurons where the protein is predomi

137 de a review of the ecology and molecular and cellular biology of New World arenaviruses, as well as a

138 and regulatory properties emerging from the cellular biology of opioid receptors and discuss potenti

139 scusses recent advances in understanding the cellular biology of opioid receptors, emphasizing partic

140 e propose that studies of the structural and cellular biology of pathological versus physiological ag

141 pments in our understanding of molecular and cellular biology of pneumococcal infection will allow th

142 activity has recently been implicated in the cellular biology of prostate cancer.

143 d from an understanding of the molecular and cellular biology of the brain microvascular and BBB tran

144 ights likely to be crucial to understand the cellular biology of the coral-Symbiodinium endosymbiosis

145 ensus Document from the ESC Working Group on Cellular Biology of the Heart and European Association o

146 be an important probe for characterizing the cellular biology of the hepatic stem-cell compartment.

147 let research is crucial to understanding the cellular biology of the pancreas in developing therapeut

148 Research on the molecular and cellular biology of the polar tube has resulted in the i

149 Study of the molecular and cellular biology of the small-intestinal mucosa is provi

150 ce discoveries elucidating the molecular and cellular biology of the T cell have led to new strategie

151 fect hepatocytes, the molecular virology and cellular biology of their respective replication cycles

152 ons pertaining to the molecular genetics and cellular biology of these tumors.

153 ng increasingly focused on the molecular and cellular biology of this fascinating tissue.

154 l what has been learned of the molecular and cellular biology of TPO and its receptor during the past

155 However, in molecular and cellular biology, our understanding of biological proces

156 Using cellular biology, patch clamp, and videomicroscopy techn

157 To derive a cellular biology perspective, we studied biomineralizati

158 Molecular and cellular biology research continues to identify markers

159 in tissue bioengineering, and molecular and cellular biology research presents many potential interv

160 iate scale (10-100 nm) between molecular and cellular biology scales.

161 e also discuss insights into the fundamental cellular biology shared between fungi and other eukaryot

162 It requires basic molecular and cellular biology skills, as well as a basic understandin

163 ox RNA helicase that plays multiple roles in cellular biology, some functions requiring its activity

164 Cellular biology studies have shown that the balance bet

165 We also performed molecular and cellular biology studies to elucidate the mechanisms by

166 ent of artificial chromosomes for functional cellular biology studies.

167 Advances in understanding of molecular and cellular biology techniques have led to the findings tha

168 ases are more comfortable with molecular and cellular biology than with protein biochemistry.

169 roteins (RBPs) are fundamental regulators of cellular biology that affect all steps in the generation

170 rch on the genetics, signaling pathways, and cellular biology that govern tumor cell initiation, prog

171 review recent advancements in structural and cellular biology that have provided critical insights in

172 RNA-binding proteins control many aspects of cellular biology through binding single-stranded RNA bin

173 rom fundamental discoveries in molecular and cellular biology to clinical translation.

174 al first steps toward bridging molecular and cellular biology to human cognition, and it has already

175 how mitochondria can impact epigenetics and cellular biology to influence health outcomes, including

176 Polymer networks are fundamental from cellular biology to plastics technology but their intrin

177 plication of the techniques of molecular and cellular biology to the study of the nervous system has

178 ss spectrometry, biochemistry, genetics, and cellular biology tools to reveal the two mammalian methy

179 ntegration requires a basic understanding of cellular biology, transcriptomic technologies and bioinf

180 Little is known of the molecular and cellular biology underpinning the intrinsic control of t

181 a method at the crossroads of structural and cellular biology, uniquely capable of identifying protei

182 icant impact of target de-repression on host cellular biology warrants a broader investigation of thi

183 f interest in diverse areas of molecular and cellular biology, while the generality of the approach s

184 avirus, sharing aspects of its molecular and cellular biology with all Bunyaviridae family members.

185 ts recent advances in erythroid genetics and cellular biology with an emphasis upon the modulation of

186 An ideal tool for the study of cellular biology would enable the measure of molecular a