Top 10 similar words or synonyms for dimerisation

dimerization    0.792767

multimerization    0.778727

homodimerization    0.778312

oligomerisation    0.775952

trimerization    0.767584

heterodimerization    0.748905

tetramerization    0.725433

trimerisation    0.717106

homodimerisation    0.709394

dimerizing    0.706849

Top 30 analogous words or synonyms for dimerisation

Article Example
Prokaryotic acetaldehyde dehydrogenase dimerisation domain The acetaldehyde dehydrogenase family of bacterial enzymes catalyses the formation of acetyl-CoA from acetaldehyde in the 3-hydroxyphenylpropinoate degradation pathway. It occurs as a late step in the meta-cleavage pathways of a variety of compounds, including catechol, biphenyl, toluene, salicylate.
Prokaryotic acetaldehyde dehydrogenase dimerisation domain In molecular biology, prokaryotic acetaldehyde dehydrogenase dimerisation domain is a protein domain found at the C-terminus of prokaryotic acetaldehyde dehydrogenases, it adopts a structure consisting of an alpha-beta-alpha-beta(3) core, which mediates dimerisation of the protein.
ErbB When not bound to a ligand, the extracellular regions of ErbB-1, -3, and -4 are found in a "tethered "conformation in which a 10-amino-acid-long dimerisation arm is unable to mediate monomer-monomer interactions. In contrast, in ligand-bound ErbB-1 and unliganded ErbB-2, the dimerisation arm becomes untethered and exposed at the receptor surface, making monomer-monomer interactions and dimerisation possible. The consequence of ectodomain dimerisation is the positioning of two cytoplasmic domains such that transphosphorylation of specific tyrosine, serine, and threonine amino acids can occur within the cytoplasmic domain of each ErbB. At least 10 specific tyrosines, 7 serines, and 2 threonines have been identified within the cytoplamic domain of ErbB-1, that may become phosphorylated and in some cases de-phosphorylated (e.g., Tyr 992) upon receptor dimerisation. Although a number of potential phosphorylation sites exist, upon dimerisation only one or much more rarely two of these sites are phosphorylated at any one time.
ELFV dehydrogenase These enzymes contain two domains, an N-terminal dimerisation domain, and a C-terminal domain.
Wanzlick equilibrium Others subsequently showed that unhindered diaminocarbenes form dimers by acid-catalysed dimerisation as shown in the Lemal.