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1 out a matrix detectable by phase contrast or differential interference contrast.
3 DIC requires only a microscope equipped with differential interference contrast and a digital camera.
4 post-transection times; and (5) we examined differential interference contrast and confocal images a
5 ion were examined 2 to 6 months later, using differential interference contrast and epifluorescence m
7 sion, pause, and retraction), as revealed by differential interference contrast and fluorescence loss
9 addition, analysis of infected monolayers by differential interference contrast and fluorescence micr
10 nt cells and their nucleoids were studied by differential interference contrast and fluorescence micr
12 ic techniques (bright field, phase contrast, differential interference contrast and scanning electron
13 architecture of the mesoglea, as observed by differential interference contrast and scanning electron
14 s were assessed by light (phase-contrast and differential interference-contrast) and transmission (st
15 icroscopy, i.e., bright-field, polarization, differential interference contrast, and dark-field optic
16 late cells were studied with phase contrast, differential interference contrast, and epifluorescence
18 ses (Optical Coherence Tomography, Episcopic Differential Interference Contrast coupled with Epifluor
21 labeled with dynein-GFP with high resolution differential interference contrast (DIC) images of nucle
22 ch 1- to 3-minute interval, GFP and Nomarski differential interference contrast (DIC) images were acq
26 nal motion of plasmonic gold nanorod under a differential interference contrast (DIC) microscope.
28 as examined over time (0, 3, 6, 18 hours) by differential interference contrast (DIC) microscopy afte
32 nce of plasmonic nanoparticles' contrasts in differential interference contrast (DIC) microscopy has
35 -based detection technique, with the help of differential interference contrast (DIC) microscopy, off
37 swimming R. sphaeroides was examined by both differential interference contrast (DIC) microscopy, whi
38 licated point spread functions (PSF) such as differential interference contrast (DIC) microscopy.
40 fluorescent neural profiles visualized with differential interference contrast (DIC) optics in horiz
41 ) changes in cell wall thickness by Nomarski differential interference contrast (DIC), (2) changes in
42 Using fluorescent speckle microscopy (FSM), differential interference contrast (DIC), and phase cont
44 ture epi-illuminator, which inserts into the differential interference-contrast (DIC) slider bay of a
45 en gel, intrinsic fiber structure visible in differential interference contrast images can provide ma
48 ent speckle microscopy (FSM) and correlative differential interference contrast imaging to investigat
52 were observed in real time by video-enhanced differential interference contrast light microscopy at d
53 We have used time-lapse. video-enhanced, differential interference contrast light microscopy to d
54 dual microtubules in vitro by video-enhanced differential interference contrast light microscopy.
56 ver a period of 3 days using motion-enhanced differential interference contrast (MEDIC) microscopy, a
57 d and used as optical imaging probes under a differential interference contrast microscope for single
59 d nanorods at nonplasmonic wavelengths under differential interference contrast microscopy (DIC).
60 nuclear localization by video-enhanced color differential interference contrast microscopy (VEC-DIC),
61 ction of emerging HbS polymers using optical differential interference contrast microscopy after lase
62 n vertebrate-cultured cells using time-lapse differential interference contrast microscopy after micr
63 crotubules were visualized by video-enhanced differential interference contrast microscopy and cells
64 analicular membrane structure as observed by differential interference contrast microscopy and F-acti
65 rmined by contrast changes in ribs imaged by differential interference contrast microscopy and fluore
67 chnique described here, and a combination of differential interference contrast microscopy and von Wi
68 with microvilli and microridges observed by differential interference contrast microscopy and were s
69 DPA) was monitored by Raman spectroscopy and differential interference contrast microscopy during ger
70 However, this model was challenged by the differential interference contrast microscopy observatio
73 ht scattering, dynamic light scattering, and differential interference contrast microscopy to confirm
74 dipicolinic acid (DPA) was then measured by differential interference contrast microscopy to monitor
75 from translational motions in the z-axis in differential interference contrast microscopy to result
76 -simultaneous three-dimensional fluorescence/differential interference contrast microscopy was used t
81 vanced light microscopy technique, episcopic differential interference contrast microscopy with the s
82 microscopy) and ciliary beat frequency (CBF; differential interference contrast microscopy) with a si
83 nt publications reported, however, that with differential interference contrast microscopy, all midgu
84 easy to identify using video-enhanced color differential interference contrast microscopy, and they
88 antages over traditional techniques, such as differential interference contrast microscopy, deliverin
90 nucleated assembly assay and video-enhanced differential interference contrast microscopy, we demons
91 rce microscopy and laser confocal microscopy-differential interference contrast microscopy, we direct
98 the loss of granule contents as monitored by differential interference contrast microscopy; and the f
100 Our study demonstrates that millisecond differential interference-contrast microscopy can be a u
102 laments has been visualized by dark-field or differential-interference-contrast microscopy, methods h
104 r, costly microscope equipment with infrared differential interference contrast optics is not always
105 nsic contrast in the form of phase-contrast, differential-interference contrast, or Hoffman modulatio
106 rity of giant vesicles based on quantitative differential interference contrast (qDIC) microscopy.
107 yofibrillar degeneration were apparent using differential interference contrast video microscopy.
108 y human HbC were studied by bright-field and differential interference contrast video-enhanced micros
109 nsequences of this regulation using infrared differential interference contrast videomicroscopy to me