Ascidians display three types of muscles during their life: striated in the larval tail and heart, and smooth in the post-metamorphic sessile phase. The larval and cardiac muscles have an arrangement of myofilaments like the striated muscle of vertebrates. Instead, the smooth body-wall musculature has intermediate characters between smooth and striated muscle of vertebrates. A great number of ascidians form colonies constituted of clonal individuals (blastozooids) originated by asexual reproduction. We studied the musculature in Botryllus schlosseri analysing its organization, differentiation with electron microscopy. Moreover, we followed gene expression of muscle actin and troponin T in the larva and during the development of blastozooids, beginning from the early bud stage to adult and regression stage. We isolated and characterised two transcripts from colonies that resulted homologous to muscle genes of solitary ascidians: a muscle-type actin (BsMA2), a cytoplasmic-type actin (BsCA1) and a troponin T (BsTnT-c). Moreover, we obtained also the genomic sequences coding for BsMA2 and BsCA1. Phylogenetic analyses showed a close relationship between urochordates and vertebrates muscle genes. The BsMA2 and BsCA1 genomic sequences were compared in the exon-intron organization with other muscle and cytoplasmic–type actin genes of both invertebrates and vertebrates. Our data revealed that intron positions are conserved in ascidians and in the other deuterostomes. We detected the expression of the two genes by in situ hybridization on section (ISH) throughout the blastogenetic cycle of B. schlosseri. The ISH, in parallel with phalloidin staining experiments, showed that the first diffuse signal of BsMA2 and BsTnT-c labels differentiating muscles which appear in the intersiphonal area of young buds. Then, the muscle fibres differentiate into the body-wall, while an intense expression only of BsMA2 marks the myocardium just when it begins contractions. Thus, all the phases of muscle development and regression were documented by an integrated study showing the close correspondence of in situ expression of BsMA2 and BsTnT-c, phalloidin signal and ultrastructure.
Gene expression during body muscle differentiation in the colonial ascidian Botryllus schlosseri.
DEGASPERI, VALENTINA;GASPARINI, FABIO;MANNI, LUCIA;BURIGHEL, PAOLO
2009
Abstract
Ascidians display three types of muscles during their life: striated in the larval tail and heart, and smooth in the post-metamorphic sessile phase. The larval and cardiac muscles have an arrangement of myofilaments like the striated muscle of vertebrates. Instead, the smooth body-wall musculature has intermediate characters between smooth and striated muscle of vertebrates. A great number of ascidians form colonies constituted of clonal individuals (blastozooids) originated by asexual reproduction. We studied the musculature in Botryllus schlosseri analysing its organization, differentiation with electron microscopy. Moreover, we followed gene expression of muscle actin and troponin T in the larva and during the development of blastozooids, beginning from the early bud stage to adult and regression stage. We isolated and characterised two transcripts from colonies that resulted homologous to muscle genes of solitary ascidians: a muscle-type actin (BsMA2), a cytoplasmic-type actin (BsCA1) and a troponin T (BsTnT-c). Moreover, we obtained also the genomic sequences coding for BsMA2 and BsCA1. Phylogenetic analyses showed a close relationship between urochordates and vertebrates muscle genes. The BsMA2 and BsCA1 genomic sequences were compared in the exon-intron organization with other muscle and cytoplasmic–type actin genes of both invertebrates and vertebrates. Our data revealed that intron positions are conserved in ascidians and in the other deuterostomes. We detected the expression of the two genes by in situ hybridization on section (ISH) throughout the blastogenetic cycle of B. schlosseri. The ISH, in parallel with phalloidin staining experiments, showed that the first diffuse signal of BsMA2 and BsTnT-c labels differentiating muscles which appear in the intersiphonal area of young buds. Then, the muscle fibres differentiate into the body-wall, while an intense expression only of BsMA2 marks the myocardium just when it begins contractions. Thus, all the phases of muscle development and regression were documented by an integrated study showing the close correspondence of in situ expression of BsMA2 and BsTnT-c, phalloidin signal and ultrastructure.Pubblicazioni consigliate
I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.