Titin is the largest known protein; its human variant consists of 34,350 amino acids, with the molecular weight of the mature "canonical" isoform of the protein being approximately 3,816,188.13 Da.[10] Its mouse homologue is even larger, comprising 35,213

Titin is the largest known protein; its human variant consists of 34,350 amino acids, with the molecular weight of the mature "canonical" isoform of the protein being approximately 3,816,188.13 Da.[10] Its mouse homologue is even larger, comprising 35,213 amino acids with a MW of 3,906,487.6 Da.[11] It has a theoretical isoelectric point of 6.01.[10] The protein's empirical chemical formula is C169 723H270 464N45 688O52 243S912.[10] It has a theoretical instability index (II) of 42.41, classifying the protein as unstable.[10] The protein's in vivo half-life, the time it takes for half of the amount of protein in a cell to break down after its synthesis in the cell, is predicted to be approximately 30 hours (in mammalian reticulocytes).[9] Titin consists primarily of a linear array of two types of modules (also referred to as protein domains; 244 copies in total): type I (fibronectin type III domain; 132 copies) and type II (immunoglobulin domain; 112 copies).[3] This linear array is further organized into two regions: N-terminal I-band: acts as the elastic part of the molecule and is composed mainly of type II modules. More specifically the I-band contains two regions of tandem type II immunoglobulin domains on either side of a PEVK region that is rich in proline, glutamate, valine and lysine. Titin is found between the myosin thick filament and the Z disk.[12] C-terminal A-band: is thought to act as a protein-ruler and possesses kinase activity. The A-band is composed of alternating type I and II modules with super-repeat segments. These have been shown to align to the 43 nm axial repeats of myosin thick filaments with immunoglobulin domains correlating to myosin crowns.[13]

Titin is the largest known protein; its human variant consists of 34,350 amino acids, with the molecular weight of the mature "canonical" isoform of the protein being approximately 3,816,188.13 Da.[10] Its mouse homologue is even larger, comprising 35,213 amino acids with a MW of 3,906,487.6 Da.[11] It has a theoretical isoelectric point of 6.01.[10] The protein's empirical chemical formula is C169 723H270 464N45 688O2 243S912.[10] It has a theoretical instability index (II) of 42.41, classifying the protein as unstable.[10] The protein's in vivo half-life, the time it takes for half of the amount of protein in a cell to break down after its synthesis in the cell, is predicted to be approximately 30 hours (in mammalian reticulocytes).[9] Titin consists primarily of a linear array of two types of modules (also referred to as protein domains; 244 copies in total): type I (fibronectin type III domain; 132 copies) and type II (immunoglobulin domain; 112 copies).[3] This linear array is further organized into two regions: N-terminal I-band: acts as the elastic part of the molecule and is composed mainly of type II modules. More specifically the I-band contains two regions of tandem type II immunoglobulin domains on either side of a PEVK region that is rich in proline, glutamate, valine and lysine. Titin is found between the myosin thick filament and the Z disk.[12] C-terminal A-band: is thought to act as a protein-ruler and possesses kinase activity. The A-band is composed of alternating type I and II modules with super-repeat segments. These have been shown to align to the 43 nm axial repeats of myosin thick filaments with immunoglobulin domains correlating to myosin crowns.[13]