What molecules are we?
This is Earth Week, and chemists are celebrating the theme Glaciers: Hot Topic, Cool Chemistry!
As you might expect, glaciers contain all sorts of substances as the result of particles being entrapped in the ice. One of these substances is lignin, which Molecule of the Week first presented on June 25, 2012. Lignins are one of the most abundant natural aromatic polymers; they are major cell-wall components of wood and grasses.
Glaciers can be 鈥渇ingerprinted鈥� by identifying the types and amounts of organic substances found in them. In 2022 as an example, Yongqin Liu and collaborators at the Chinese Academy of Sciences (Beijing), Lanzhou University, the Chinese University of Petroleum (Beijing), and Xiamen University (all in China) examined the (DOM) from lignins and other substances in the central and southern glaciers of the Tibetan Plateau.
Using ultra-high-resolution mass spectrometry, the authors found that there were no significant differences in DOM concentration or composition in snow and ice samples from the two glaciers. But cryoconite (windblown dust deposited in glaciers) from the southern glacier contained significantly higher relative intensities of lignins, carbohydrates, tannins, and other condensed aromatic compounds than the central glacier cryoconite. And DOM in the cryoconite on the central glacier came predominantly from lignin decomposition, whereas the southern glacier DOM did not. The authors attribute these differences to the higher forest cover and anthropogenic inputs from Indian monsoons in the southern glacier.
Lignins are important for glaciologists in other ways. Also in 2022, Petra Vin拧ov谩 at Charles University (Prague) and colleagues there and in Switzerland, Canada, and the United States wrote that lignins and other organic substances in subglacial sediments from retreating glaciers are .
Lignin听hazard information
| Hazard class* | GHS code and hazard statement |
|---|---|
| Listed as not classifiable or not a hazardous substance or mixture. | 听 |
*Globally Harmonized System (GHS) of Classification and Labeling of Chemicals.
ErSO1 is an anticancer drug being developed at the University of Illinois at Urbana鈥揅hampaign by a team led by Paul J. Hergenrother. It first appeared in the chemical literature in 2020 world patent WO2020009958 to David J. Shapiro, Hergenrother, and Matthew W. Boudreau.
In 2021, the Hergenrother team, along with colleagues at the University of Chicago, Systems Oncology (Scottsdale, AZ), the Vanderbilt Ingram Cancer Center (Nashville), and the University of Illinois at Chicago, reported the discovery of ErSO. The researchers were seeking a way to combat then-incurable metastatic estrogen receptor 伪 (ER伪)鈥損ositive breast cancer. They found that ErSO 鈥渁ctivates the anticipatory unfolded protein response (a-UPR) and 鈥�, first in vitro and then in mice, rats, and dogs.
The following year, the Urbana鈥揅hampaign group described a derivative, ErSO-DFP (for 4,4-difluoropiperidine), that had . And this past January, Hergenrother and colleagues followed up with a report that a single dose of another derivative, ErSO-TFPy (for tetrafluoropyrrole) 鈥渋nduces in multiple mouse models of [ER伪-positive] breast cancer.鈥� The effect was independent of tumor size, even for tumors as large as 1500 m3.
1. CAS Reg. No. 2407860-35-7; SciFindern name: 2H-indol-2-one, 1,3-dihydro-3-(4-hydroxyphenyl)-3-[4-(trifluoromethoxy)phenyl]-7-(trifluoromethyl)-.
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Lignin听fast facts
| CAS Reg. No. | 9005-53-2 |
| SciFindern name | Lignin |
| Empirical formula | (C31H34O11)n (approx.) |
| Molar mass | 鈮�1000鈥�25,000 g/mol |
| Appearance | White to brown fibers or powder |
| Melting point | 鈮�150鈥�900 潞C (dec.) |
| Water solubility | Insoluble |
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