Andrew C Millard
Overview
Explore the profile of Andrew C Millard including associated specialties, affiliations and a list of published articles.
Author names and details appear as published. Due to indexing inconsistencies, multiple individuals may share a name, and a single author may have variations. MedLuna displays this data as publicly available, without modification or verification
Snapshot
Snapshot
Articles
14
Citations
771
Followers
0
Related Specialties
Related Specialties
Top 10 Co-Authors
Top 10 Co-Authors
Published In
Published In
Affiliations
Affiliations
Soon will be listed here.
Recent Articles
1.
Campagnola P, Millard A, Terasaki M, Hoppe P, Malone C, Mohler W
Biophys J
. 2020 Oct;
103(3):627.
PMID: 33049908
No abstract available.
2.
Teisseyre T, Millard A, Yan P, Wuskell J, Wei M, Lewis A, et al.
J Biomed Opt
. 2007 Sep;
12(4):044001.
PMID: 17867805
Nonlinear optical phenomena, such as two-photon fluorescence (2PF) and second harmonic generation (SHG), in combination with voltage sensitive dyes, can be used to acquire high-resolution spatio temporal maps of electrical...
3.
Yan P, Millard A, Wei M, Loew L
J Am Chem Soc
. 2006 Aug;
128(34):11030-1.
PMID: 16925413
Chirality can produce novel nonlinear optical effects that may form the basis for new imaging contrast agents. In this paper, we developed a new chiral chromophore 2, which is the...
4.
Jin L, Millard A, Wuskell J, Dong X, Wu D, Clark H, et al.
Biophys J
. 2006 Jan;
90(7):2563-75.
PMID: 16415047
In this article, we characterize the fluorescence of an environmentally sensitive probe for lipid membranes, di-4-ANEPPDHQ. In large unilamellar lipid vesicles (LUVs), its emission spectrum shifts up to 30 nm...
5.
Matiukas A, Mitrea B, Pertsov A, Wuskell J, Wei M, Watras J, et al.
Am J Physiol Heart Circ Physiol
. 2006 Jan;
290(6):H2633-43.
PMID: 16399869
Styryl voltage-sensitive dyes (e.g., di-4-ANEPPS) have been widely and successfully used as probes for mapping membrane potential changes in cardiac cells and tissues. However, their utility has been somewhat limited...
6.
Plotnikov S, Millard A, Campagnola P, Mohler W
Biophys J
. 2005 Nov;
90(2):693-703.
PMID: 16258040
Several biologically important protein structures give rise to strong second-harmonic generation (SHG) in their native context. In addition to high-contrast optical sections of cells and tissues, SHG imaging can provide...
7.
Jin L, Millard A, Wuskell J, Clark H, Loew L
Biophys J
. 2005 May;
89(1):L04-6.
PMID: 15879475
We present a membrane-staining dye, di-4-ANEPPDHQ, which differentiates liquid-ordered phases from liquid-disordered phases coexisting in model membranes under both linear and nonlinear microscopies. The dye's fluorescence emission spectrum is blue-shifted...
8.
Millard A, Terasaki M, Loew L
Biophys J
. 2005 Apr;
88(6):L46-8.
PMID: 15849238
Second harmonic generation offers an important alternative and complement to fluorescence for the imaging of cellular structure and function. Staining the eggs of the sea urchin, Lytechinus pictus, with the...
9.
Millard A, Jin L, Wei M, Wuskell J, Lewis A, Loew L
Biophys J
. 2004 Jan;
86(2):1169-76.
PMID: 14747351
In this article we present results from the simultaneous nonlinear (second harmonic generation and two-photon excitation fluorescence) imaging and voltage clamping of living cells. Specifically, we determine the sensitivity to...
10.
Brown Jr R, Millard A, Campagnola P
Opt Lett
. 2003 Dec;
28(22):2207-9.
PMID: 14649943
The macromolecular structure of purified cellulose samples is studied by second-harmonic generation (SHG) imaging microscopy. We show that the SHG contrast in both Valonia and Acetobacter cellulose strongly resembles that...