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Items: 1 to 20 of 120

1.

Similar structures, different characteristics: circular dichroism of metallic helix arrays with single-, double-, and triple-helical structures.

Zhang P, Yang Z, Zhao M, Wu L, Lu Z, Cheng Y, Gong R, Zheng Y, Duan J.

J Opt Soc Am A Opt Image Sci Vis. 2013 Apr 1;30(4):677-81. doi: 10.1364/JOSAA.30.000677.

PMID:
23595328
2.

Ultrabroadband optical circular polarizers consisting of double-helical nanowire structures.

Yang ZY, Zhao M, Lu PX, Lu YF.

Opt Lett. 2010 Aug 1;35(15):2588-90. doi: 10.1364/OL.35.002588.

PMID:
20680067
3.

Broadband terahertz circular polarizers with single- and double-helical array metamaterials.

Li S, Yang Z, Wang J, Zhao M.

J Opt Soc Am A Opt Image Sci Vis. 2011 Jan 1;28(1):19-23. doi: 10.1364/JOSAA.28.000019.

PMID:
21200407
4.

Higher extinction ratio circular polarizers with hetero-structured double-helical metamaterials.

Yu Y, Yang Z, Li S, Zhao M.

Opt Express. 2011 May 23;19(11):10886-94. doi: 10.1364/OE.19.010886.

PMID:
21643347
5.

Structure and dynamics of peptide-amphiphiles incorporating triple-helical proteinlike molecular architecture.

Yu YC, Roontga V, Daragan VA, Mayo KH, Tirrell M, Fields GB.

Biochemistry. 1999 Feb 2;38(5):1659-68.

PMID:
9931034
6.

Single- and double-stranded helical polymers: synthesis, structures, and functions.

Yashima E, Maeda K, Furusho Y.

Acc Chem Res. 2008 Sep;41(9):1166-80. doi: 10.1021/ar800091w. Epub 2008 Aug 9.

PMID:
18690750
7.

What makes single-helical metamaterials generate "pure" circularly polarized light?

Wu L, Yang Z, Zhao M, Zhang P, Lu Z, Yu Y, Li S, Yuan X.

Opt Express. 2012 Jan 16;20(2):1552-60. doi: 10.1364/OE.20.001552.

PMID:
22274498
8.
9.

Interaction of Hoechst 33258 with a DNA triple helix.

Durand M, Thuong NT, Maurizot JC.

Biochimie. 1994;76(2):181-6.

PMID:
7519057
10.

Structures of plant viruses from vibrational circular dichroism.

Shanmugam G, Polavarapu PL, Kendall A, Stubbs G.

J Gen Virol. 2005 Aug;86(Pt 8):2371-7.

PMID:
16033985
11.

Binding studies of a triple-helical peptide model of macrophage scavenger receptor to tetraplex nucleic acids.

Mielewczyk SS, Breslauer KJ, Anachi RB, Brodsky B.

Biochemistry. 1996 Sep 3;35(35):11396-402.

PMID:
8784195
12.
14.

Role of recurrent hydrophobic residues in catalysis of helix formation by T cell-presented peptides in the presence of lipid vesicles.

Lu S, Reyes VE, Lew RA, Anderson J, Mole J, Humphreys RE, Ciardelli T.

J Immunol. 1990 Aug 1;145(3):899-904.

PMID:
2373862
15.

Broadband circularly polarizing dichroism with high efficient plasmonic helical surface.

Hu J, Zhao X, Li R, Zhu A, Chen L, Lin Y, Cao B, Zhu X, Wang C.

Opt Express. 2016 May 16;24(10):11023-32. doi: 10.1364/OE.24.011023.

PMID:
27409925
16.

Binding of netropsin to a DNA triple helix.

Durand M, Thuong NT, Maurizot JC.

J Biol Chem. 1992 Dec 5;267(34):24394-9.

17.

A synthetic model for triple-helical domains in self-splicing group I introns studied by ultraviolet and circular dichroism spectroscopy.

Sarkar M, Sigurdsson S, Tomac S, Sen S, Rozners E, Sjöberg BM, Strömberg R, Gräslund A.

Biochemistry. 1996 Apr 16;35(15):4678-88.

PMID:
8664257
18.

Aromatic side-chain contribution to far-ultraviolet circular dichroism of helical peptides and its effect on measurement of helix propensities.

Chakrabartty A, Kortemme T, Padmanabhan S, Baldwin RL.

Biochemistry. 1993 Jun 1;32(21):5560-5.

PMID:
8504077
19.

Polarization characteristics of the metallic structure with elliptically helical metamaterials.

Wu L, Yang Z, Zhao M, Yu Y, Li S, Zhang Q, Yuan X.

Opt Express. 2011 Aug 29;19(18):17539-45. doi: 10.1364/OE.19.017539.

PMID:
21935120
20.

Poly(rA).poly(rU) with Ni(2+) ions at different temperatures: infrared absorption and vibrational circular dichroism spectroscopy.

Andrushchenko V, Blagoi Y, van de Sande JH, Wieser H.

J Biomol Struct Dyn. 2002 Apr;19(5):889-906.

PMID:
11922843
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