ライフサイエンスコーパス: biological chemistry

1 iated through publications in the Journal of Biological Chemistry.

2 ions play essential roles in many aspects of biological chemistry.

3 any of which have no precedent in organic or biological chemistry.

4 ffold for applications in supramolecular and biological chemistry.

5 ds is important to synthetic, medicinal, and biological chemistry.

6 anic synthesis, catalysis, and medicinal and biological chemistry.

7 amolecular chemistry to material science and biological chemistry.

8 trate significant roles for this specialized biological chemistry.

9 areas of research spanning from materials to biological chemistry.

10 are key structural elements in synthetic and biological chemistry.

11 in a recent report in the Journal of Biological Chemistry.

12 ecades-long relationship with the Journal of Biological Chemistry.

13 ster derivatives are widely used reagents in biological chemistry and chemical biology.

14 as in materials science, in nanoscience, in biological chemistry and in supramolecular chemistry.

15 sure cold plasma has the potential to modify biological chemistry and modulate physical surface prope

16 ramolecular chemistry and a central tool for biological chemistry and nanotechnology, because of the

17 l molecules in various fields, especially in biological chemistry and pharmacology.

18 cted under anhydrous conditions; however, in biological chemistry and related fields, the reaction is

19 mmarizes his association with the Journal of Biological Chemistry and the remarkable developments tha

20 that are used broadly in organic synthesis, biological chemistry, and nanosciences.

21 er is critical for advancing drug discovery, biological chemistry, and targeted therapy.

22 chanism, potentially rendering a new tool in biological chemistry approaches.

23 rthday this past year, served the Journal of Biological Chemistry as a member of the Editorial Board

24 areer have been my service to the Journal of Biological Chemistry as an editorial board member and As

25 nitrous oxide (N2O) is a process relevant to biological chemistry as well as to the abatement of cert

26 ut plays an important role in analytical and biological chemistry, as low as 0.1 muM with linearity o

27 egree in 2003, and his Ph.D. in 2007, all in Biological Chemistry at UFRJ.

28 Among the many discoveries in biological chemistry during this period was the identifi

29 g have demonstrated the potential to exploit biological chemistry for the synthesis of complex molecu

30 In this issue of the Journal of Biological Chemistry, Geck et al. report that TNBC cells

31 i-metal-sulfur batteries, organic syntheses, biological chemistry, geochemical processes including me

32 In a recent issue of the Journal of Biological Chemistry, Gisriel et al.

33 Over the past half-century, The Journal of Biological Chemistry has been the venue for many landmar

34 th computer hardware and software as well as biological chemistry have enabled a renaissance of compu

35 ls in Biology, which began in the Journal of Biological Chemistry in 2009.

36 felong bile acid research for the Journal of Biological Chemistry, in which I am proud to have publis

37 eed, water is the solvent used by nature for biological chemistry including aldol reactions being ess

38 in the Journal of Biological Chemistry investigated how the intracellular

39 Much of our current knowledge of biological chemistry is founded in the structure-functio

40 Our understanding of biological chemistry is shaped by the observation that a

41 Biological chemistry is very stereospecific.

42 ert Tabor, Editor-in-Chief of the Journal of Biological Chemistry (JBC) for 40 years, on the occasion

43 The Journal of Biological Chemistry (JBC) has been a major vehicle for

44 or was the Editor-in-Chief of the Journal of Biological Chemistry (JBC) spanning the years 1971-2010.

45 ane serine proteases (TTSPs) in a Journal of Biological Chemistry minireview.

46 the opportunity to work with the Journal of Biological Chemistry not only as an author but also for

47 ntracellularly, limited understanding of the biological chemistry of CO reactions with non-heme targe

48 thetic models in advancing insights into the biological chemistry of metal dichaclogenides.

49 The biological chemistry of peroxynitrite is modulated by en

50 g innovative approaches to understanding the biological chemistry of redox-active metals.

51 To understand the biological chemistry of these compounds, we evaluated in

52 My interest in biological chemistry proceeded from enzymology in vitro

53 ries of five minireviews from the Journal of Biological Chemistry provides a broad overview of our cu

54 In this issue of the Journal of Biological Chemistry, Ramachandran et al. show that in s

55 of modern approaches in driving fundamental biological chemistry research.

56 in the Journal of Biological Chemistry, the authors examine components in

57 fields such as organic, pharmaceutical, and biological chemistry, the development of efficient appro

58 felong bile acid research for the Journal of Biological Chemistry, the premier biochemistry journal i

59 vances with individual proteins, the in vivo biological chemistry, the structural elements that gover

60 1953 was a banner year for biological chemistry: The double helix structure of DNA

61 e Journal of Cell Biology and the Journal of Biological Chemistry, three reports reveal that AP-2, wh

62 ny of which were published in the Journal of Biological Chemistry under the tenure of Herb Tabor as E

63 A critical event in the history of biological chemistry was the chemical identification of