Characterization of unique heavy chain fibroin filaments spun underwater by the caddisfly Stenopsyche marmorata (Trichoptera; Stenopsychidae).

The silks of both Lepidoptera and its sister order Trichoptera contain a homologue of heavy chain (H-fibroin), which is assumed to determine the physical properties of the fiber, such as elasticity and toughness. The long repetitive region of the H-fibroin caddisfly Stenopsyche marmorata shows a conspicuous hierarchical structure that is composed of huge units, which are mainly constructed from four large blocks (SA, SB, SC and SD) arranged in an orderly fashion. Each block contains short, distinct motifs such as SXSXSX(SX), GPXG(X)(1-3) or triplet GGX, which also occur in lepidopteran and spider filaments. The SA, SB and SC blocks have nearly fixed amino acid numbers, while the length of the SD block varies, usually due to a variable number of GPXGXXX repeats. The multiple sandwich structure that occurs in the SB block is assumed to be unique to the caddisfly and may be related to the use of silk in an aqueous environment. The overall average of hydrophilicity in the repetitive H-fibroin region of S. marmorata is -0.609, whereas hydrophobicity prevails in most lepidopteran H-fibroins. Gly (29.51%), Pro (11.28%) and Ser (10.90%) are the three predominant amino acids of H-fibroin, and the high content of essential amino acids reflects the energy-rich food resources of the caddisfly. The H-fibroin of S. marmorata is about 400-500 kDa and expressed in both the middle and posterior silk glands, which is different from the expression pattern in Lepidoptera species.