ライフサイエンスコーパス: thermo-

1 informatics analysis, we identified a highly thermo- and alkali-stable CA, termed CA-KR1, originating

2 Possible origins of the thermo- and barostability of CYP119 were then investigat

3 As a result, the catalytic activity of the thermo- and barostable CYP119 has been incorporated into

4 The results show that AgTRPA1 is an inherent thermo- and chemoreceptor, and analogous to what has bee

5 -channel currents to understand its inherent thermo- and chemosensory properties as well as the role

6 ch to produce anchored smart thin films both thermo- and electro-responsive, with the aim to integrat

7 Herein, we compare current trends in thermo- and electrocatalysis and elaborate on the common

8 nse efforts in the last decades, research in thermo- and electrocatalysis has often preceded in isola

9 relevant test system with promising scope in thermo- and electrochemical applications.

10 suggesting that the lACA serves as a hub for thermo- and hygrosensory circuitry.

11 erior projection neurons (VP PNs) that relay thermo- and hygrosensory information to higher brain cen

12 anogaster circuitry associated with antennal thermo- and hygrosensory neurons.

13 We present the first connectome of a thermo- and hygrosensory neuropil, the lateral accessory

14 nd second-order layer analysis of Drosophila thermo- and hygrosensory systems and an initial survey o

15 ator system endowed with dynamic distortion, thermo- and mechano-chromic camouflage, and self-healing

16 Polymodal thermo- and mechanosensitive two-pore domain potassium (

17 the TRP vanilloid channel family involved in thermo- and osmosensation, has a large N-terminal IDR of

18 ision, taste, olfaction, hearing, touch, and thermo- and osmosensation.

19 Because H-NS functions as a thermo- and osmosensor, these conformations may both be

20 t conjugation of drugs with SPIONs including thermo- and pH-degradable bonds, amide linkage, redox-cl

21 lso promotes H(2)O(2) and O(2) activation in thermo- and photocatalysis, respectively.

22 anisms in operation is missing from both the thermo- and photocatalytic perspectives.

23 for partial oxidation of methane under both thermo- and photocatalytic reaction conditions, with hyd

24 Microfluidics: Thermo- and photoresponsive polymersomes are assembled u

25 enerate de novo function, such as control of thermo- and proteolytic stability in a target protein, o

26 The thermo- and solvo-driven chiroptical switching process o

27 of these problems for CHA and maximizes its thermo- and structure- buffering abilities.

28 ronmental conditions, were synthesized using thermo- and UV-initiated polymerization techniques.

29 tive nerve agent detoxification due to their thermo- and water stability as well as high density of c

30 while most receive additional olfactory and thermo- and/or hygrosensory PN inputs.

31 crocyclic azobenzene can be tuned by photo-, thermo-, and acid stimulus.

32 muli-responsive properties (mechano-, vapo-, thermo-, and chemochromism) of both sol-gel systems and

33 umerous chromic effects, including mechano-, thermo-, and chronochromism, though the latter to a less

34 nscriptomes of Drosophila olfactory- (ORNs), thermo-, and hygro-sensory neurons at an early developme

35 nd relate them to their main applications in thermo-, electro-, and photocatalysis, revealing trends

36 nociceptive ascending neurons, olfactory and thermo-/hygro-sensory projection neurons, interneurons c

37 ivated by sensory stimuli and participate in thermo-, mechano- and chemo-sensation.

38 and the resulting nanocomposites show unique thermo-, mechano-, and solvatochromic properties.

39 ers, redox-responsive micelles and nanogels, thermo- or magnetic-responsive nanoparticles (NPs), mech

40 als, protists, and fungi are primary chemo-, thermo-, or mechanosensors.

41 physical and chemical mechanisms leading to thermo-, photo- and mechano-switchable behaviour.

42 d the stability of copper-based catalysts in thermo-, photo-, and electrocatalysis.

43 of CO(2) into carboxylic acids by following thermo-, photo-, and electrochemical strategies.

44 The hydrogels not only exhibit thermo-, photo-, and mechano-induced color changes, but

45 vations provide additional evidence that the thermo-/photo-/mechanosalient effects are macroscopic ma

46 and process modifications that minimize the (thermo-, solvent) stress on the enzyme.