1 We
describe how to use 3View for studying collagen fibril o
2 In this protocol, we
describe how to use a time-correlated single-photon coun
3 Finally, we
describe how to use a user-friendly and easily accessibl
4 Finally, we
show how to use a reference fluorophore for the correcti
5 This protocol also
describes how to use confocal microscopy to visualize mi
6 We
describe how to use hidden Markov models to evaluate mul
7 Our approach
shows how to use high-throughput data to calculate accur
8 We
show how to use information theory to validate simple st
9 of perception as probabilistic inference, we
show how to use knowledge of the psychophysical task to
10 This protocol
describes how to use microengraving to screen mouse hybr
11 In this protocol, we
describe how to use our previously reported gelatin-base
12 Moreover, we
show how to use our package to easily perform Connectivi
13 We
describe how to use PLINK, a tool for handling SNP data,
14 In this paper, we
describe how to use PROBEmer, the computational methods
15 We
describe how to use public protein databases and molecul
16 In addition, new video tutorials
describe how to use RDP features.
17 We
show how to use reference 450k datasets to estimate cell
18 We
show how to use relativistic motion to generate continuo
19 tocol gives an overview of the algorithm and
describes how to use Scalpel to perform highly accurate
20 In this protocol we
describe how to use several popular features of Vaa3D, i
21 In this protocol, we
show how to use small-scale transient transfection and f
22 Here, we
show how to use suffix array-based methods that have for
23 e chiasma exists in each marker interval, we
describe how to use the expectation-maximization algorit
24 s in each interval at most one crossover, we
describe how to use the expectation-maximization algorit
25 We
describe how to use the Kimura distribution in mitochond
26 This protocol
describes how to use the viral protein families catalog
27 We
show how to use the expectation-maximization algorithm t
28 Finally, we
show how to use the library to extract SWATH data with t
29 The authors
show how to use the MSM parameter estimates and contrast
30 In particular, we
show how to use the multigeneration-wrinkled substrate f
31 h software such as PLINK, R or Haploview, we
describe how to use these popular tools for handling sin
32 es with several other FST estimators, and we
describe how to use these statistics to produce a rooted
33 This protocol
describes how to use this approach to determine how effi
34 This protocol
describes how to use this system, which provides a power
35 This protocol
describes how to use this system; the time required for
36 We further
show how to use this framework to create simple models w
37 ng a traditional mouse model of epilepsy, we
describe how to use transcranial US to disrupt electrogr
38 Here, we
describe how to use Transmission Electron Microscope (TE