The structure of invertebrate extracellular hemoglobins (erythrocruorins and chlorocruorins).

The knowledge accumulated over the last 30 years concerning the subunit structures of the invertebrate extracellular hemoglobins permits us to classify them into four distinct groups. Single-domain, single-subunit hemoglobins consisting of single, heme-binding polypeptide chains which have a molecular mass of ca. 16 KDa. These molecules are found in multicellular parasitic organisms such as the trematodes Dicrocoelium and Fasciolopsis and in a few insects, namely in the adult Anisops and in the larvae of Chironomus and of Buenoa. Two-domain, multi-subunit hemoglobins consisting of 30-37 KDa polypeptide chains each containing two, linearly connected heme-binding domains, which form polymeric aggregates with molecular masses ranging from 250 to 800 KDa. These hemoglobins are found extensively among the carapaced branchiopod crustaceans: Caenestheria, Daphnia and Lepidurus hemoglobins have been found to consist of 10, 16 and 24 two-domain chains, respectively. Judging from their electron microscopic appearances, some of the hemoglobins may possess different molecular symmetries. Multi-domain, multi-subunit hemoglobins consisting of two or more polypeptide chains, each comprising many heme-binding domains of ca. 15-20 KDa each. Examples of this class are found among the carapaceless branchiopod crustaceans, the planorbid snails and the clams from the families Astartidae and Carditidae. Artemia hemoglobin consists of two chains of ca. 125 KDa, each containing 8 heme-binding domains. Planorbis and Helisoma hemoglobins possess a molecular mass of ca. 1700 KDa and consist of 10 chains of 170-200 KDa. Astarte and Cardita hemoglobins appear in electron micrographs as rod-like polymers of variable dimensions, 20-30 nm in diameter and 20-100 nm in length and consist of polypeptide chains of ca. 300 KDa. The crustacean and gastropod hemoglobins vary in their electron microscopic appearance and may possess different molecular symmetries. Single-domain, multi-subunit hemoglobins consisting of aggregates of several small subunits, some of which are disulfide-bonded and not all of which contain heme. These molecules are widely distributed among the annelids and possibly also among the pogonophores. They are characterized by a two-tiered, hexagonal electron microscopic appearance, with a vertex-to-vertex diameter of 30 nm and a height of 20 nm, an acidic isoelectric point, a sedimentation coefficient of 50-60 S and a low iron content of 0.24 +/- 0.03%.(ABSTRACT TRUNCATED AT 400 WORDS)