Functional Characterization of Laccase Isozyme (PoLcc1) from the Edible Mushroom Pleurotus ostreatus Involved in Lignin Degradation in Cotton Straw

Fungal laccases play important roles in the degradation of lignocellulose. In this study, the laccase producing cotton straw medium for Pleurotus ostreatus was optimized by single-factor and orthogonal experiments, and to investigate the role of Lacc1 gene, one of the laccase-encoding genes, in the degradation of cotton straw lignin, an overexpression strain of Lacc1 gene was constructed, which was analyzed for the characteristics of lignin degradation. The results demonstrated that the culture conditions with the highest lignin degradation efficiency of the P. ostreatus were the cotton straw particle size of 0.75 mm, a solid-liquid ratio of 1:3 and containing 0.25 g/L of Tween in the medium, as well as an incubation temperature of 26 °C. Two overexpression strains (OE L1-1 and OE L1-4) of Lacc1 gene were obtained, and the gene expression increased 12.08- and 33.04-fold, respectively. The results of 1H-NMR and FTIR analyses of significant changes in lignin structure revealed that Lacc1 gene accelerated the degradation of lignin G-units and involved in the cleavage of β-O-4 linkages and the demethylation of lignin units. These findings will help to improve the efficiency of biodelignification and expand our understanding of its mechanism.

Functional and characteristic analysis of an appressorium-specific promoter PMagas1 in Metarhizium acridum

Entomopathogenic fungi have been used as important biological control agents throughout the world. To improve the biocontrol efficacy of entomopathogenic fungi, many genes have been used to improve fungal virulence or tolerance to adverse conditions via modulating their expression with strong promoters. The Magas1 gene is specifically expressed during appressorium formation and contributes to the virulence in Metarhizium acridum. In this study, we analyzed the functional region of the promoter of Magas1 gene (PMagas1) in M. acridum using 5'-deletion technique with enhanced green fluoresces protein (EGFP) as a reporter. Results showed the full length of the PMagas1 was at least 897 bp. Two regions (-897 to -611 bp and -392 to -328 bp) were essential for the activity of PMagas1. An engineered M. acridum strain was constructed with PMagas1 driving the expression of a subtilisin-like proteinase gene Pr1A (PMagas1-PR1A). Bioassay showed that the virulence was significantly increased in PMagas1-PR1A strain compared to wild type strain. Pmagas1 promoter is suitable for the overexpression of some genes during the infection of entomopathogenic fungi, which avoids the waste of nutritional resources and the influence on other fungal characteristics during the saprophytic process of constitutive promoter.

A promoter assay system using gene targeting in agaricomycetes Pleurotus ostreatus and Coprinopsis cinerea

A novel promoter assay was developed for Agaricomycetes, using a gene-targeting approach, with or without the CRISPR/Cas9 technique. It enables precise evaluation of promoter activity at the original site of the chromosome without random and multiple integrations in conventional transformation experiments.

Identification and characterization of a novel light-induced promoter for recombinant protein production in Pleurotus ostreatus

A lectin gene (plectin) with a high level of expression was previously identified by comparative transcriptome analysis of Pleurotus ostreatus. In this study, we cloned a 733-bp DNA fragment from the start codon of the plectin gene. Sequence analysis showed that the plectin promoter (Plp) region contained several eukaryotic transcription factor binding motifs, such as the TATA-box, four possible CAAT-box, light respon-siveness motifs and MeJA-responsiveness motifs. To deter-mine whether the Plp promoter was a light-regulated promoter, we constructed an expression vector with the fused egfp-hph fragment under the control of the Plp promoter and transformed P. ostreatus mycelia via Agrobacterium tunte-faciens. PCR and Southern blot analyses confirmed the Plp-egfp-hph fragment was integrated into the chromosomal DNA of transformants. qRT-PCR, egfp visualization, and intracellular egfp determination experiments showed the Plp promoter could be a light-induced promoter that may be suitable for P. ostreatus genetic engineering. This study lays the foundation for gene homologous expression in P. ostreatus.

Identification of a Heat-Inducible Element of Cysteine Desulfurase Gene Promoter in Lentinula edodes

Volatile organosulfur compounds are the main components that contribute to the unique aroma of dried Lentinula edodes. They are mainly generated during the hot-air drying process, and cysteine desulfurase is the key enzyme in this process. Temperature may be an essential factor of volatile organosulfur compound production by influencing the expression of the cysteine desulfurase gene. In this study, the promoter sequence of the cysteine desulfurase gene (pCS) was cloned and analyzed using bioinformatics tools. A series of 5′deletion fragments and site-directed mutations of pCS were constructed to identify the element that responds to heat stress. Six heat shock transcription factor (HSTF) binding sites were predicted by SCPD (The Promoter Database of Saccharomyces cerevisiae) and three of the binding sites were predicted by Yeastract (Yeast Search for Transcriptional Regulators and Consensus Tracking) in pCS. The results indicated that pCS was able to drive the expression of the EGFP (Enhanced Green Fluorescent Protein) gene in L. edodes. Moreover, the fluorescence intensity increased after heat stress. The changes in fluorescence intensity of different 5′deletion fragments showed that the heat response region was located between −500 bp and −400 bp in pCS. The site-directed mutation analysis further showed that the heat-inducible element was between −490 bp and −500 bp (TTTCTAGAAT) in pCS. Our results provide molecular insight for studying the formation of volatile organosulfur compounds in dried L. edodes.

Sequence-independent cloning methods for long DNA fragments applied to synthetic biology

Simplified methods to assemble DNA fragments by independent cloning sequence have helped in the progress of synthetic biology, allowing some biotechnological processes to become economically viable by genetic improvement of microorganisms. We compared three methods of assembling six DNA fragments: PCR fusion-based, isothermal NEBuilder and circular polymerase extension cloning (CPEC). Double and triple fusion occurs directly with the PCR products using PCR fusion-based and NEBuilder methods. For multiple fragments the results showed higher efficiency by the CPEC method which allowed assembly of six fragments previously purified by agarose gel extraction, after a sequence of 20 annealing/extension cycles without any primer.