Amino Acid-Derived Sensors for Specific Zn2+ Detection Using Hyperpolarized 13 C Magnetic Resonance Spectroscopy.

Sinan WangDavid E KorenchanPaola M PerezCéline TaglangThomas R HayesRenuka SriramRobert BokAndrew S HongYunkou WuHenry LiZhen WangJohn KurhanewiczDavid M WilsonRobert R Flavell

Published in: Chemistry (Weinheim an der Bergstrasse, Germany) (2019)

Alterations in Zn2+ concentration are seen in normal tissues and in disease states, and for this reason imaging of Zn2+ is an area of active investigation. Herein, enriched [1-13 C]cysteine and [1-13 C2 ]iminodiacetic acid were developed as Zn2+ -specific imaging probes using hyperpolarized 13 C magnetic resonance spectroscopy. [1-13 C]cysteine was used to accurately quantify Zn2+ in complex biological mixtures. These sensors can be employed to detect Zn2+ via imaging mechanisms including changes in 13 C chemical shift, resonance linewidth, or T1 .

Keyphrases

heavy metals
high resolution
amino acid
living cells
gene expression
fluorescence imaging
risk assessment
low cost
fluorescent probe
ionic liquid
photodynamic therapy
mass spectrometry