Major hemes There are several biologically important kinds of heme: The most common type is
heme B; other important types include
heme A and
heme C. Isolated hemes are commonly designated by capital letters while hemes bound to proteins are designated by lower case letters. Cytochrome a refers to the heme A in specific combination with membrane protein forming a portion of
cytochrome c oxidase.
Other hemes The following carbon numbering system of porphyrins is an older numbering used by biochemists and not the 1–24 numbering system recommended by
IUPAC, which is shown in the table above. • '
Heme l''''' is the derivative of heme B which is covalently attached to the protein of
lactoperoxidase,
eosinophil peroxidase, and
thyroid peroxidase. The addition of
peroxide with the
glutamyl-375 and
aspartyl-225 of lactoperoxidase forms ester bonds between these amino acid residues and the heme 1- and 5-methyl groups, respectively. • '
Heme m'''
is the derivative of heme B covalently bound at the active site of myeloperoxidase. Heme m
contains the two ester bonds at the heme 1- and 5-methyl groups also present in heme l'' of other mammalian peroxidases, such as lactoperoxidase and eosinophil peroxidase. In addition, a unique
sulfonamide ion linkage between the sulfur of a methionyl amino-acid residue and the heme 2-vinyl group is formed, giving this enzyme the unique capability of easily oxidizing
chloride and
bromide ions to hypochlorite and hypobromite.
Myeloperoxidase is present in mammalian
neutrophils and is responsible for the destruction of invading bacteria and viral agents. It perhaps synthesizes
hypobromite by "mistake". Both hypochlorite and hypobromite are very reactive species responsible for the production of halogenated nucleosides, which are mutagenic compounds. •
Heme D is another derivative of heme B, but in which the
propionic acid side chain at the carbon of position 6, which is also hydroxylated, forms a γ-
spirolactone. Ring III is also hydroxylated at position 5, in a conformation
trans to the new lactone group. •
Heme S is related to heme B by having a
formyl group at position 2 in place of the 2-vinyl group. Heme S is found in the hemoglobin of a few species of marine worms. The correct structures of heme B and heme S were first elucidated by German chemist
Hans Fischer. The names of
cytochromes typically (but not always) reflect the kinds of hemes they contain: cytochrome a contains heme A, cytochrome c contains heme C, etc. This convention may have been first introduced with the publication of the structure of
heme A.
Use of capital letters to designate the type of heme The practice of designating hemes with upper case letters was formalized in a footnote in a paper by Puustinen and Wikstrom, which explains under which conditions a capital letter should be used: "we prefer the use of capital letters to describe the heme structure as isolated. Lowercase letters may then be freely used for cytochromes and enzymes, as well as to describe individual protein-bound heme groups (for example, cytochrome bc, and aa3 complexes, cytochrome b5, heme c1 of the bc1 complex, heme a3 of the aa3 complex, etc)." In other words, the chemical compound would be designated with a capital letter, but specific instances in structures with lowercase. Thus cytochrome oxidase, which has two A hemes (heme a and heme a3) in its structure, contains two moles of heme A per mole protein. Cytochrome bc1, with hemes bH, bL, and c1, contains heme B and heme C in a 2:1 ratio. The practice seems to have originated in a paper by Caughey and York in which the product of a new isolation procedure for the heme of cytochrome aa3 was designated heme A to differentiate it from previous preparations: "Our product is not identical in all respects with the heme a obtained in solution by other workers by the reduction of the hemin a as isolated previously (2). For this reason, we shall designate our product heme A until the apparent differences can be rationalized." In a later paper, Caughey's group uses capital letters for isolated heme B and C as well as A. ==Synthesis==