Ultrastructural and Histochemical Characterization of the Zebra Mussel Adhesive Apparatus

Farsad, Nikrooz

06 April 2010

Since their accidental introduction into the Great Lakes in mid- to late-1980s, the freshwater zebra mussels, Dreissena polymorpha, have colonized most lakes and waterways across eastern North America. Their rapid spread is partly attributed to their ability to tenaciously attach to hard substrates via an adhesive apparatus called the byssus, resulting in serious environmental and economic impacts. A detailed ultrastructural study of the bysuss revealed a 10 nm adhesive layer at the attachment interface. Distributions of the main adhesive amino acid, 3,4-dihydroxyphenylalanine (DOPA), and its oxidizing (cross-linking) enzyme, catechol oxidase, were determined histochemically. It was found that, upon aging, DOPA levels remained high in the portion of the byssus closest to the interface, consistent with an adhesive role. In contrast, reduced levels of DOPA corresponded well with high levels of catechol oxidase in the load-bearing component of the byssus, presumably forming cross-links and increasing the cohesive strength.

Zebra Mussel

Dreissena polymorpha

byssus

ultrastructure

bioadhesive

adhesive

3,4-dihydroxyphenylalanine

DOPA

TEM

transmission electron microscopy

bio-adhesive

catechol oxidase

immunogold labeling

histochemistry

histochemical methods

adhesive plaque

cryoultramicrotomy

TEM biological sample preparation

0794

0487

0306

Ultrastructural and Histochemical Characterization of the Zebra Mussel Adhesive Apparatus

Farsad, Nikrooz

06 April 2010

Since their accidental introduction into the Great Lakes in mid- to late-1980s, the freshwater zebra mussels, Dreissena polymorpha, have colonized most lakes and waterways across eastern North America. Their rapid spread is partly attributed to their ability to tenaciously attach to hard substrates via an adhesive apparatus called the byssus, resulting in serious environmental and economic impacts. A detailed ultrastructural study of the bysuss revealed a 10 nm adhesive layer at the attachment interface. Distributions of the main adhesive amino acid, 3,4-dihydroxyphenylalanine (DOPA), and its oxidizing (cross-linking) enzyme, catechol oxidase, were determined histochemically. It was found that, upon aging, DOPA levels remained high in the portion of the byssus closest to the interface, consistent with an adhesive role. In contrast, reduced levels of DOPA corresponded well with high levels of catechol oxidase in the load-bearing component of the byssus, presumably forming cross-links and increasing the cohesive strength.

Zebra Mussel

Dreissena polymorpha

byssus

ultrastructure

bioadhesive

adhesive

3,4-dihydroxyphenylalanine

DOPA

TEM

transmission electron microscopy

bio-adhesive

catechol oxidase

immunogold labeling

histochemistry

histochemical methods

adhesive plaque

cryoultramicrotomy

TEM biological sample preparation

0794

0487

0306