A carboxylesterase with an encoded molecular size of 61 kDa and a high sequence similarity to juvenile hormone esterase (JHE) has been cloned from cDNA prepared from final instar larvae of Trichoplusia ni. The absence of a recognizable encoded signal peptide suggests that the enzyme, JHER (for JHE-related) may not be secreted, in contrast to JHE. When the amino acid sequence of JHE, JHER and other esterases were mapped onto the secondary and tertiary structure determined crystallographically for acetylcholinesterase, certain structural features for the substrate binding/catalytic site were identified as common only to JHE and JHER. However, several differences between JHE and JHER were identified in residues at the binding/catalytic site, suggesting that although the two enzymes prefer similar natural substrates, these substrates are not identical. JHER is present as a single-copy gene, transcribed during the feeding stage of the final stage of the final larval stadium, but not after metamorphic commitment to the pupal developmental programme. The gene transcribes a single-size message of 2.0 kb. The genes for JHER and JHE appear to be physically juxtaposed in the T. ni genome. The 5' flanking sequence to the JHER gene possesses some sequences in common with the JHE gene, but is also missing some regulatory elements previously identified in the JHE gene. Sequences conserved between the promoters for the two genes were identified that were different from previously reported regulatory elements of eukaryotic transcription factors.
The ryanodine receptors (RyRs) are a class of intracellular calcium release channels of which there are three isoforms. In striated muscle, isoform 1 and isoform 2 are mainly expressed in the terminal cisternae of sarcoplasmic reticulum of skeletal muscle and heart, respectively. Isoform 3 is widely distributed in tissues but in minuscule amounts. These channels release calcium ions from intracellular stores in excitation-contraction coupling for cell signaling. Here, we report the presence of skeletal muscle isoform 1 localized in the intercalated discs (IDs) of human and mouse hearts. By using RyR1 and connexin43 specific antibodies and dual immunofluorescent techniques, both were localized in the proximity of the IDs of human and mouse hearts. We confirmed that RyR1 is localized to the IDs by selective immunoprecipitation of RyR isoform 1 from a subcellular fraction containing IDs from human heart tissue. The functional significance of our observation remains to be elucidated as isoform 1 is involved in depolarization induced calcium release, unlike RyR isoforms 2 and 3 which appear to be involved in calcium induced calcium release.
Transforming growth factor  (TGF) is a regulator of embryonic development. The role of specific TGF receptors is emerging, and a unique role for the type III TGF receptor (TBRIII) has been suggested. We report the pattern of TBRIII expression in chicken embryos from 2 to 14 days in ovo. Anat Rec Part A 272A: 383-387, 2003.
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