RESUMO
Asexual reproduction via archeospores in Porphyra yezoensis Ueda gametophytes is a very valuable character to nori farming; however, there is little information available on the molecular basis of the developmental process. To identify genes involved in the Porphyra asexual sporulation, we compared the gene expression profiles derived from four developmental stages of the life cycle (three from gametophytes; one from sporophytes) using cDNA macroarray, which includes 4,896 nonredundant expressed sequence tag (EST) groups. Candidate genes were screened by two different macroarray data analyses combined with reverse transcription-PCR (RT-PCR) analysis or Northern analysis. RT-PCR analysis revealed that nine genes (one: similarity to 5'-3' exoribonuclease; the other eight: no sequence similarity to known proteins) were expressed with a gametophyte (G)-specific manner, and two genes (named ASPO2608, ASPO1527) were expressed only in gametophytes that formed archeospores. The deduced amino acid sequences for the latter two genes are predicted to contain signal peptides for secretion at their N-termini. Northern analysis revealed that expression levels of Calvin cycle genes in the gametophytic stage that formed archeospores (G-A stage) were higher than those of the gametophyte blade with no archeospores (G-NA stage). In the macroarray analysis based on the rank data of G-preferentially expressed genes, which were detected in the previous P. yezoensis EST analysis, one gene encoding the cyclase associated protein (CAP) exhibited a change upwardly in the G-A stage >1,000 ranks to the G-NA stage. We propose that ASPO2608 and CAP may function in a signaling pathway of asexual sporulation.
RESUMO
An endo-beta-1,4-mannanase was isolated from digestive fluid of Pacific abalone, Haliotis discus hannai, by successive chromatographies on TOYPEARL CM-650M, hydroxyapatite, and TOYOPEARL HW50F. The abalone mannanase, named HdMan in the present paper, showed a molecular mass of approximately 39,000 Da on SDS-PAGE, and exhibited high hydrolyic activity on both galactomannan from locust bean gum and glucomannan from konjac at an optimal pH and temperature of 7.5 and 45 degrees C, respectively. HdMan could degrade either beta-1,4-mannan or beta-1,4-mannooligosaccharides to mannotriose and mannobiose similarly to beta-1,4-mannanases from Pomacea, Littorina, and Mytilus. In addition, HdMan could disperse the fronds of a red alga Porphyra yezoensis into cell masses consisting of 10-20 cells that are available for cell engineering of this alga. cDNAs encoding HdMan were amplified by polymerase chain reaction from an abalone-hepatopancreas cDNA library. From the nucleotide sequences of the cDNAs, the sequence of 1232 bp in total was determined and the amino-acid sequence of 377 residues was deduced from the translational region of 1134 bp locating at nucleotide positions 15-1148. The N-terminal region of 17 residues except for the initiation Met, was regarded as the signal peptide of HdMan because it was absent in the HdMan protein and showed high similarity to the consensus sequence for signal peptides of eukaryote secretory proteins. Accordingly, mature HdMan was considered to consist of 359 residues with the calculated molecular mass of 39,627.2 Da. HdMan is classified into glycoside hydrolase family 5 (GHF5) on the basis of sequence homology to GHF5 enzymes.