0:04
Overview
1:31
Principles of [Co(salen)]2
3:42
Synthesis of Inactive [Co(salen)]2 and Measurement of O2 Uptake
8:32
Representative Results
10:01
Applications
11:27
Summary
Source: Deepika Das, Tamara M. Powers, Department of Chemistry, Texas A&M University
Bioinorganic chemistry is the field of study that investigates the role that metals play in biology. Approximately half of all proteins contain metals and it is estimated that up to one third of all proteins rely on metal-containing active sites to function. Proteins that feature metals, called metalloproteins, play a vital role in a variety of cell functions that are necessary for life. Metalloproteins have intrigued and inspired synthetic inorganic chemists for decades, and many research groups have dedicated their programs to modeling the chemistry of metal-containing active sites in proteins through the study of coordination compounds.
The transport of O2 is a vital process for living organisms. O2-transport metalloproteins are responsible for binding, transporting, and releasing oxygen, which can then be used for life processes such as respiration. The oxygen-carrying cobalt coordination complex, [N,N'-bis(salicylaldehyde)ethylenediimino]cobalt(II) [Co(salen)]2 has been studied extensively to gain understanding about how metal complexes reversibly bind O2.1
In this experiment, we will synthesize [Co(salen)]2 and study its reversible reaction with O2 in the presence of dimethylsulfoxide (DMSO). First, we will quantify the amount of O2 consumed upon exposure of [Co(salen)]2 to DMSO. We will then visually observe the release of O2 from the [Co(salen)]2-O2 adduct by exposing the solid to CHCl3.
1. Synthesis of Inactive [Co(salen)]2
Characterization of Inactive [Co(salen)]2:
IR (cm-1) collected on ATR attachment: 2357 (w), 1626 (w), 1602 (m), 1542 (w), 1528 (m), 1454 (w), 1448 (m), 1429 (m), 1348 (w), 1327 (w), 1323 (m), 1288 (m), 1248 (w), 1236 (w), 1197 (m), 1140 (m), 1124 (m), 1089 (w), 1053 (m), 1026 (w), 970 (w), 952 (w), 947 (w), 902 (m), 878 (w), 845 (w), 813 (w), 794 (w), 750 (s), 730 (
In this video, we explained the different ways that diatomic oxygen can coordinate to metal center(s). We synthesized the oxygen-carrying cobalt complex [Co(salen)]2 and studied its reversible binding with O2. Experimentally we demonstrated that inactive [Co(salen)]2 reversibly binds O2 and forms a 2:1 Co:O2 adduct in the presence of DMSO.
All vertebrates depend on hemoglobin, a metalloprotein found in red blood cells, to transport oxygen
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