ライフサイエンスコーパス: functional molecule

1 real space observation of the hydration of a functional molecule.

2 c acid and an accessible amine groups of the functional molecule.

3 ng reagents into the realm of a biologically functional molecule.

4 NA/cardiolipin, confirming the expression of functional molecule.

5 oaddition with dibenzocyclooctyne-containing functional molecules.

6 ationally friendly easy procedure with ample functional molecules.

7 e selective, rapid, and modular synthesis of functional molecules.

8 s novel motif as a building block in complex functional molecules.

9 or the release of reactive species and other functional molecules.

10 for understanding and optimization of other functional molecules.

11 rials, medicines, chemical probes, and other functional molecules.

12 tes showing distinct permeability to various functional molecules.

13 e interface into the bulk using two types of functional molecules.

14 y for their exploration as a source of novel functional molecules.

15 ' ends undergo processing to release mature, functional molecules.

16 d towards the rapid and reliable assembly of functional molecules.

17 ormation to unravel dynamic details of photo-functional molecules.

18 by markedly lower expression of several Treg functional molecules.

19 which RNA acted as both genetic material and functional molecules.

20 ay be covalently modified by the addition of functional molecules.

21 ressure shapes the sequence space covered by functional molecules.

22 ence of multiple autophagy-related and other functional molecules.

23 a duplex nucleic acid for the production of functional molecules.

24 of replicable information into the earliest functional molecules.

25 ational change between the nonfunctional and functional molecules.

26 d is an important structural element in many functional molecules.

27 onstrate the release of three representative functional molecules (a drug, a fluorescent tag and an o

28 ides have been extensively used to transport functional molecules across the plasma membrane into liv

29 sults provide evidence that GehD may be a bi-functional molecule, acting not only as a lipase but als

30 of expression for the various NK receptors, functional molecules, adhesion molecules, and chemokine

31 y have a phospholipid bilayer decorated with functional molecules and an enclosed parental matrix, wh

32 requires better methods for discovering new functional molecules and for optimizing their assembly i

33 r machines are among the most complex of all functional molecules and lie at the heart of nearly ever

34 ly available building blocks into high value functional molecules and materials.

35 ltivalent (3 + 1) scaffold for the design of functional molecules and materials.

36 ls express higher levels of T(FH)-associated functional molecules and more robustly conjugate with B

37 of hydrogel fibers can be easily doped with functional molecules and nanoparticles for localized lig

38 By integrating the beneficial features of functional molecules and natural cell membrane component

39 to increase both the likelihood of isolating functional molecules and the potential activities of the

40 We conclude that RNA functional molecules and/or cis-acting elements with str

41 sential building blocks for the synthesis of functional molecules, and efficient methods for their sy

42 Adenosine 5'-triphosphate (ATP) is a functional molecule associated with many important biolo

43 the export of virulence factors, making its functional molecules attractive targets for the developm

44 etic methods aimed at accessing such type of functional molecules, based on ligand design and inorgan

45 cementing their natural capacity to transfer functional molecules between cells, the long-winded jour

46 be used as not only scaffolds for generating functional molecules but chemical tools or building bloc

47 genetic information and its conversion into functional molecules-can now be accomplished with RNA in

48 e expression of complex proteins as soluble, functional molecules, complete with prosthetic groups, d

49 his study, we extensively characterized a bi-functional molecule comprising of epidermal growth facto

50 r nanofibers, enable the manipulation of the functional molecules constituting molecular machines and

51 h-throughput screening of peptides and other functional molecules, constituting an effective tool for

52 Thus Sap6 is a multi-functional molecule containing amyloid regions that prom

53 nd can be used to package and organize large functional molecules; correlated arrays of Ru(bpy)(3)(2+

54 ines have attributed different names to dual-functional molecules depending on their application, inc

55 between auxochromic groups in pai-conjugated functional molecules dictate their electronic properties

56 e of action using a generative AI system for functional molecules discovery.

57 their utility in the synthesis of high-value functional molecules, distinct methods for the preparati

58 rm was not an inert precursor protein, but a functional molecule, downregulating the glucose-sensing

59 of the senile plaques, the development of bi-functional molecules, encompassing the 2-arylbenzazole m

60 amines constitute some of the most prevalent functional molecules, especially as pharmaceuticals.

61 ze that natural and artificial selection for functional molecules favors the formation of structures

62 groups were utilized for conjugation of the functional molecules fluorescein isothiocyanate (FITC, a

63 es that have application in the discovery of functional molecules for medicinal and materials science

64 and structural space and potentially deliver functional molecules for molecular recognition applicati

65 ding blocks for the preparation of potential functional molecules for organic electronics has been de

66 ernal alkenes to streamline the synthesis of functional molecules from basic feedstocks.

67 cent research for the extraction of valuable functional molecules from this species and its by-produc

68 plore the self-organization of this class of functional molecules from three aspects, i.e., Fmoc-modi

69 The force-controlled release of functional molecules has attracted interest due to its p

70 existing classes of these highly interesting functional molecules have been heavily investigated and

71 nation reaction, and thereby activation of a functional molecule, if an appropriately positioned leav

72 ts practical utility, especially for complex functional molecules in aqueous solution.

73 architectural templates on which to position functional molecules in complex arrangements.

74 nforces the notion that lipoproteins are the functional molecules in HBb and perhaps in vivo.

75 y be of use in analyzing the distribution of functional molecules in heterogeneous evolving populatio

76 report a diverse click-library of 173 unique functional molecules in minimal synthetic steps.

77 The distribution of functional molecules in SCNs provides insight into the i

78 Because the proteins are the main functional molecules in the cells, their levels reflect

79 Membrane proteins are critical functional molecules in the human body, constituting mor

80 ulted in reduced expression of multiple Treg functional molecules, including Foxp3, CD25, Nrp-1 and C

81 valent packaging, and subsequent release, of functional molecules inside nucleoprotein nanocages in a

82 lf-assembled monolayers (SAMs) to direct the functional molecules into precise locations, providing a

83 azole (BTD) as an integral component of many functional molecules, methods for the functionalization

84 materials onto plastics utilizes the surface functional molecules of the UV photooxidation patterned

85 It was also confirmed that all relevant functional molecules of TN-ApoA1 in the plasma samples w

86 ts and helps verify the presence of a single functional molecule on the atomic force microscopy tip.

87 dation for the presence of a single-tethered functional molecule on the atomic force microscopy tip.

88 nd on the molecular interactions between the functional molecules on the MNPs and the intended biolog

89 To identify functional molecules on this cell line, we screened for

90 e of the simplifying assumption that similar functional molecules, or proteins, sometimes have simila

91 Site-specific modification of proteins with functional molecules provides powerful tools for researc

92 mparisons of congenic cells with and without functional molecules regulating melanosome formation sho

93 on nanoparticle (C(3)-NP), in which a single functional molecule served a threefold purpose.

94 ect spatial and temporal correlation between functional molecule-specific fluorescence and structural

95 xibility of porphyrinoids, a unique class of functional molecules, starting from the smallest triphyr

96 cation in the sulfoximination of azine-based functional molecules such as 2,2'-bipyridine, 1,10-phena

97 orms to prepare self-assembled monolayers of functional molecules such as azobenzenes with vertical o

98 gs together or conjugating them with various functional molecules such as lipids, carbohydrates and p

99 edicting chemical and physical properties of functional molecules such as molecular catalysts.

100 the interactions between circRNAs and other functional molecules (such as microRNA and RNA-binding p

101 ections critically depend on the presence of functional molecules, such as aptamers and ribozymes, in

102 ct as a scaffold for the attachment of small functional molecules, such as fluorescein dye or the mag

103 s showcased to demonstrate the potential for functional molecules that are not only modulable but als

104 employs d-amino acids for the development of functional molecules that have dual or multiple roles an

105 acid polymers must have increased to encode functional molecules (the RNA world).

106 reaction in living cells; namely, releasing functional molecules through energy transfer to a coumar

107 synthesis of such libraries would allow rare functional molecules to be identified using technologies

108 c reticulum, ensuring the deployment of only functional molecules to distal sites.

109 molecular hosts have also been used as ideal functional molecules to improve the solubility, stabilit

110 es a versatile platform to optically release functional molecules to modulate brain circuits.

111 cile cross-linking strategy covalently links functional molecules to semiconducting polymer dots (Pdo

112 e their incorporation into a wide variety of functional molecules, unlocking the full potential of th

113 This diversity can be searched for functional molecules using mRNA-lantipeptide display.

114 linear and brush polymers were connected to functional molecules via an azide-alkyne click reaction.

115 well as natural DNA as a platform to create functional molecules, we compared two six-letter AegisBo

116 -5'-triphosphate (ATP) is an important multi-functional molecule which can mediate numerous physiolog

117 Annexin A1 is a multi functional molecule which is involved in inflammation, i

118 ectricity through single molecules, then new functional molecules, which exploit room-temperature QI

119 tor (TNF) alpha factor (LITAF) is a multiple functional molecule whose sequence is identical to the s

120 le scaffolds for the organization of various functional molecules with nanometer scale spatial resolu

121 DNA nanostructures can be used to organize functional molecules with nanoscale precision and can al

122 riched in the CR conditioned media (CRCM) as functional molecules, with L-serine being a particularly

123 rface properties and spatial presentation of functional molecules within a microfluidic channel is im