ライフサイエンスコーパス: single molecule spectroscopy

1 w we present several examples of femtosecond single molecule spectroscopy.

2 time observed in slower folding proteins by single-molecule spectroscopy.

3 ng rapid biomolecular kinetics with confocal single-molecule spectroscopy.

4 LASR combines temperature-jump kinetics and single-molecule spectroscopy.

5 what we believe is a novel approach based on single-molecule spectroscopy.

6 energy transfer together with colocalization single-molecule spectroscopy, a combination of methods t

7 biochemical and biophysical applications of single molecule spectroscopy and fluorescence microscopy

8 focuses on recent advances in colocalization single molecule spectroscopy and how this technique has

9 Single-molecule spectroscopy and confocal fluorescence c

10 the stability demands on fluorescent dyes in single-molecule spectroscopy and fluorescence microscopy

11 ange of in vitro studies of GPCRs, including single-molecule spectroscopy, and is a promising platfor

12 riving force for these developments has been single-molecule spectroscopy, as it allows structural he

13 nt advances in single-molecule detection and single-molecule spectroscopy at room temperature by lase

14 temporal limitations of conventional protein single-molecule spectroscopy by employing correlation an

15 y encapsulation in trehalose are examined by single-molecule spectroscopy by means of a two-channel c

16 This demonstrates that microfluidic single molecule spectroscopy can be a rapid, facile, and

17 Single-molecule spectroscopy can detect conformational h

18 phy gel filtration data and demonstrate that single-molecule spectroscopy can provide useful insights

19 Colocalization single-molecule spectroscopy (CoSMoS) has proven to be a

20 es a promoter by FD using the colocalization single-molecule spectroscopy (CoSMoS) multiwavelength fl

21 Here we use co-localization single-molecule spectroscopy (CoSMoS) to follow the exch

22 a fluorescence method called colocalization single-molecule spectroscopy (CoSMoS), Friedman and Gell

23 Colocalization single molecule spectroscopy enables simultaneous observ

24 echnique, fluorescence-voltage time-resolved single molecule spectroscopy (FV-TR-SMS).

25 Single-molecule spectroscopy has developed into a field

26 Single-molecule spectroscopy has the power to probe indi

27 Recent technical advances in single-molecule spectroscopy have made it possible to di

28 ess of such techniques in the life sciences, single-molecule spectroscopy is finding increasing appli

29 vitro annealing mechanism using a multistep single-molecule spectroscopy kinetic method.

30 dynamics, can be identified and analyzed by single-molecule spectroscopy measurements.

31 This single-molecule spectroscopy method directly probes kine

32 inding and encapsulation by GroEL/GroES with single-molecule spectroscopy, microfluidic mixing, and e

33 This article reviews recent progress in single molecule spectroscopy of conjugated polymers as u

34 Excitonic energy migration was studied using single molecule spectroscopy of individual conjugated po

35 This work presents for the first time the single-molecule spectroscopy of a new molecular probe wh

36 Single-molecule spectroscopy of the 584 strong adsorptio

37 Single molecule spectroscopy on oligo(phenylenevinylene)

38 Bulk and single-molecule spectroscopy reveal that near-physiologi

39 Single-molecule spectroscopy showed that exchange betwee

40 Single molecule spectroscopy (SMS) has matured to a poin

41 It is widely appreciated that single-molecule spectroscopy (SMS) can be used to measur

42 approach with a broad array of fluorescence single-molecule spectroscopy (SMS) tools (FRET, molecule

43 ng way since the early demonstrations of the single-molecule spectroscopy studies of enzymatic dynami

44 Recent single-molecule spectroscopy studies on the trimeric LHC

45 Such high temperatures, so far unreached in single-molecule spectroscopy studies, were achieved usin

46 ility of this method with different types of single molecule spectroscopy techniques, including confo

47 Here, we show, using single-molecule spectroscopy, that the FCP complexes of

48 We used multi-wavelength colocalization single molecule spectroscopy to directly observe the key

49 re we use quantitative live-cell imaging and single-molecule spectroscopy to analyze how different tr

50 Here, we use single-molecule spectroscopy to demonstrate that surface

51 ccus lactis, were characterized by employing single-molecule spectroscopy to follow the turnover kine

52 We have used single-molecule spectroscopy to show that the natural fo

53 Here, we use single-molecule spectroscopy to uncover the photoprotect

54 In this report, we used single-molecule spectroscopy together with biophysical a

55 Single-molecule spectroscopy was used to examine how a m

56 Single-molecule spectroscopy was used to follow the orie

57 Single-molecule spectroscopy was used to reveal energy t

58 By single-molecule spectroscopy we have observed a fluoresc

59 tion of mutagenesis, structural biology, and single molecule spectroscopy, we show how Lnk2 influence

60 Using single-molecule spectroscopy, we address this fundamenta

61 Using a combination of ensemble and single-molecule spectroscopy, we have scrutinized the un

62 We used atomic force microscopy-based single molecule spectroscopy with antibody-modified atom