This research was relative humidity (65, 75, 85 and 95%) growth characteristics of the oak mushroom (Lentinula edodes) 'Nongjingo’. At the relative humidity was 65% in growth chamber. On this condition the moisture content of medium surface was 60.5%. That was lower than other treatments. That condition makes Pileus was 77.1% and stipe was 65%. Among the growth characteristics according to the relative humidity, the pileus diameter at 75% relative humidity were 45.5mm that largest than other treatment and pileus thickness at 75% relative humidity were largest than other treatment. The stipe thickness at 65% relative humidity were 14.8mm that lagest than other treatment. The number of available stipes at 95% relative humidity were 13.3peace/2kg that largest than other treatment. The comparison yield ability of 1 cycle was 104.2g that result in largest than other treatment at 95% relative humidity. This result was associated to the relative humidity of fruiting bodies, the lower relative humidity result in the lower of yield. However, the lower relative humidity result in the higher number of whago, Especially, at the treatment of 65% relative humidity, all the fruit bodies were produced as Whago (dry). Therefore, the higher relative humidity influenced in the higher yield but produced water mushroom. That result was thought that ‘Nongjingo’ would be possible to produce high quality mushroom by adjusting the relative humidity appropriately.

Sanghuangporus sanghuang (Hymenochaetaceae, Agaricomycetes) is a medicinal mushroom which has gained particular attention in Korea as a natural immune booster and a cancer suppressor. Recent molecular phylogenetic studies clarified the species concept of S. sanghuang extensively used in Asia including Korea, China, and Japan. In this study, we assembled its mitochondrial genome and identified the locations and functions of genes and coding regions using next-generation sequencing. Raw sequencing data was produced using PacBio approach, and assembled through hierarchical genome assembly process (HGAP). Determining the mitocondrial regions GeSeq and Artemis annotation tools were used. And the resulting gene map was visualized using OGDraw software. A total of 108 reads was aligned with a coverage of 11.87X. The entire mitochondrial genome was 111,734 bp in length, in which 24 proteins and 46 transfer RNAs were recognized. The overall base composition is 38.37% A, 38.42% T, 11.05% C and 12.14% G with an GC content of 23.2%. This mitochondrial genome data can be used to understand its phylogenetic relationship and taxonomic resolution and as a source of markers for population and species delimitation.

Mushroom Research Division, National Institute of Horticultural and Herbal Science (NIHHS) has operated mushroom resource management facilities which consist of eight separate rooms with automatic temperature and humidity controllers for the safe preservation of mycelial cultures and dried voucher specimens. Recently the liquid-nitrogen (LN) cryogenic system for the permanent/semi-permanent preservation of the strains commercially or scientifically important are successfully installed. Currently, 3,072 strains of 493 species in 139 genera of edible and medicinal mushrooms are preserved. During the last two years, an intranet site was designed and constructed for efficiently managing genetic resources. Based on accumulated data, morphological and physiological characteristics of mycelia and fruiting bodies, genetic sequences such as DNA barcodes and other molecular markers, preservation information, and the related pictures and documents of each strain are provided via graphical user interface.