Biology Reference
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140. Donyagina VF, Shimizu S, Kobayashi N, Lukyanets EA. Synthesis of N,
N-difluoroboryl complexes of 3,3'-diarylazadiisoindolylmethenes. Tetrahedron Lett
2008;49:6152-4.
141. Tasior M, Murtagh J, Frimannsson DO, McDonnell SO, O'Shea DF. Water-
solubilised BF 2 -chelated tetraarylazadipyrromethenes. Org Biomol Chem 2010;8:522-5.
142. Li L, Han J, Nguyen B, Burgess K. Syntheses and spectral properties of functionalized,
water-soluble BODIPY derivatives. J Org Chem 2008;73:1963-70.
143. Dodani SC, He Q, Chang CJ. A turn-on fluorescent sensor for detecting nickel in liv-
ing cells. J Am Chem Soc 2009;131:18020-1.
144. Dilek ¨ , Bane SL. Synthesis, spectroscopic properties and protein labeling of water sol-
uble 3,5-disubstituted boron dipyrromethenes. Bioorg Med Chem Lett 2009;19:6911-3.
145. Bura T, Ziessel R. Water-soluble phosphonate-substituted BODIPY derivatives with
tunable emission channels. Org Lett 2011;13:3072-5.
146. Jiao L, Li J, Zhang S, Wei C, Hao E, Vicente GH. A selective fluorescent sensor for
imaging Cu 2 þ in living cells. New J Chem 2009;33:1888-93.
147. Zhu S, Zhang J, Vegesna G, Luo F-T, Green SA, Liu H. Highly water-soluble neutral
BODIPY dyes with controllable fluorescence quantum yields. Org Lett 2011;13:438-41.
148. Atilgan S, Ekmekci Z, Dogan AL, Guc D, Akkaya EU. Water soluble distyryl-
boradiazaindacenes as efficient photosensitizers for photodynamic therapy. Chem
Commun 2006;4398-400.
149. Atilgan S, Ozdemir T, Akkaya EU. A sensitive and selective ratiometric near IR fluo-
rescent probe for zinc ions based on the distyryl-Bodipy fluorophore. Org Lett
2008;10:4065-7.
150. He H, Lo P-C, Yeung S-L, Fong W-P, Ng DKP. Synthesis and in vitro photodynamic
activities of pegylated distyryl boron dipyrromethene derivatives.
J Med Chem
2011;54:3097-102.
151. Niu SL, Ulrich G, Ziessel R, Kiss A, Renard P-Y, Romieu A. Water-soluble BODIPY
derivatives. Org Lett 2009;11:2049-52.
152. Brellier M, Duportail G, Baati R. Convenient synthesis of water-soluble nitrilotriacetic
acid (NTA) BODIPY dyes. Tetrahedron Lett 2010;51:1269-72.
153. Giessler K, Griesser H, G¨hringer D, Sabirov T, Richert C. Synthesis of 3 0 -BODIPY-
labeled active esters of nucleotides and a chemical primer extension assay on beds. Eur
J Org Chem 2010;2010:3611-20.
154. Murtagh J, Frimannsson DO, O'Shea DF. Azaide conjugatable and pH responsive
near-infrared fluorescent imaging probes. Org Lett 2009;11:5386-5389s.
155. Tasior M, O'Shea DF. BF 2 -chelated tetraarylazadipyrromethenes as NIR fluoro-
chromes. Bioconjugate Chem 2010;21:1130-3.
156. Jiao G-S, Thoresen LH, Burgess K. Fluorescent, through-bond energy transfer cassettes
for labeling multiple biological molecules
in one experiment.
J Am Chem Soc
2003;125:14668-9.
157. Jiao G-S, Thoresen LH, Kim TG, Haaland WC, Gao F, Topp MR, et al. Syntheses,
photophysical properties and application of through-bond energy-transfer cassettes for
biotechnology. Chem Eur J 2006;12:7816-26.
158. Wu L, Loudet A, Barhoumi R, Burghardt RC, Burgess K. Fluorescent cassettes for
monitoring three-component interactions in vitro and in living cells. J Am Chem Soc
2009;
:9156-7.
159. Coskun A, Akkaya EU. Ion sensing coupled to resonance energy transfer: a highly
selective and sensitive ratiometric fluorescent chemosensor for Ag(I) by a modular
approach. J Am Chem Soc 2005;127:10464-5.
160. Atilgan S, Ozdemir T, Akkaya EU. Selective Hg(II) sensing with improved Stokes shift
by coupling the internal charge transfer process to excitation energy transfer. Org Lett
2010;12:4792-5.
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