Proteomic profiling of the hemolymph at the fifth instar of the silkworm Bombyx mori

Abstract

Abstract Two‐dimensional gel electrophoresis (2‐DE) followed by matrix‐assisted laser desorption ionization – time‐of‐flight/time‐of‐flight mass spectrometry (MS) analysis were used to charaterize the hemolymph proteomic profiles of the silkworm, Bombyx mori. At days 4 (V4) and 5 (V5) of the fifth (final) instar, when the larvae were at the fast‐growing stage, we found dramatic changes in spots representing proteins having an approximate molecular weight (MW) of 30 kDa. Of these spots, four 30K proteins were highly up‐regulated, implying a close association with the growth and development of B. mori larvae. To understand the molecular basis and underlying mechanisms involved in development and metamorphosis, the proteome of whole hemolymph at V5 was analyzed using shotgun liquid chromatography tandem mass spectrometry with an LTQ‐Orbitrap. A total of 108 proteins were identified without any false discovery hits. These proteins were involved in a variety of cellular functions, including metabolism, development, nutrient transport and reserve, and defense response. Gene ontology analysis showed that 3.4% of these proteins had nutrient reservoir activities and 5.7% were involved in the response to stimulus. Pathway analysis revealed that 22 proteins with common targets were involved in various cellular processes such as immunity, differentiation, proliferation and metamorphosis. These results suggested that some key factors such as the 30K proteins in hemolymph play important roles in B. mori growth and development. Moreover, the multiple functions of hemolymph may be operated by a complex biological network.