What Does MOTS-C Dissolve In? Solvents Explained
Solubility behaviour is where compounds in this library differ most sharply from one another. For MOTS-C, the determining factors are structural: mitochondrial-derived peptide, 16 residues.
In plain English
Dissolves in water without difficulty. Its positive charge means it can also stick to container walls in weak solutions, so low-binding tubes are a sensible precaution for dilute work.
What MOTS-C actually is
MOTS-c has one of the more surprising origins in this catalogue: its instructions are written not in the DNA of the cell nucleus but inside the separate, much smaller genome carried by mitochondria — the structures that produce most of a cell's energy. It is studied as a signal they send out to the rest of the cell.
Supplied for laboratory research use only — not for human or animal use.
Third-party tested by HPLC and LC-MS, ≥99% purity, with a Certificate of Analysis on every order. Ships across Canada.
Technical detail below
How MOTS-C behaves in solution
Water-soluble, with a net positive charge from three basic residues. The sequence contains both methionine and tryptophan, which makes it one of the more chemically reactive peptides in this catalogue despite its modest length.
Suitable solvents, in order
Structural basis
MOTS-C is mitochondrial-derived peptide, 16 residues. MOTS-c is encoded not in nuclear DNA but within the mitochondrial genome — specifically an open reading frame inside the 12S ribosomal RNA gene. Its discovery helped establish that mitochondria encode short signalling peptides that act on the rest of the cell, a genuinely recent addition to cell biology and the reason the compound attracted rapid research interest.
What MOTS-C is studied for
Part of a novel class demonstrating that mitochondria encode peptides acting systemically.
The most-studied signalling interaction, examined in metabolic and exercise models.
Investigated in glucose-metabolism research models.
Studies have examined MOTS-c expression in relation to physical activity and ageing in animal models.
Summarizes published preclinical literature. Provided for research reference only; not a claim of efficacy or a description of human use.
More MOTS-C reference
Lyophilized and reconstituted storage conditions, plus the practical working window.
Diluent selection, dissolution behaviour, and the calculator preset for this compound.
The specific chemical routes by which this molecule breaks down, and how to limit each.
Which assays are informative for this molecule, and what to actually check on its COA.
Compound-specific bench practices, and the errors most often made with this molecule.
What to inspect on arrival, and which conditions actually warrant rejecting a vial.
Questions specific to this compound — structure, chemistry, and common misconceptions.
Solubility reference for other compounds
MOTS-C is supplied strictly as a research chemical for in-vitro laboratory and research use only. It is not intended for human or animal consumption, diagnostic, or therapeutic use. This page is educational laboratory-handling reference information — not medical advice, not usage guidance, and not a protocol.