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[PB-0099] Development of DNA Marker for the Resistance to Bakanae Disease in Rice (Oryza sativa L.)
Yuting Zeng(Yuting Zeng),Ah-Rim Lee(Ah-Rim Lee),Hongjia Zhang(Hongjia hang),Sang-Cheol Kim(Sang-Cheol Kim),Seong-Gyu Jang(Seong-Gyu Jang),Soon-Wook Kwon(Soon-Wook Kwon) 한국육종학회 2022 한국육종학회 공동학술발표집 Vol.2022 No.-
The Noise Monitoring System and Automatic Correction Algorithm
Zeng Huapu,Li Yuting,Xu Huiyu,Pu Yunming,Qiao feng,Liang jun 보안공학연구지원센터 2016 International Journal of Multimedia and Ubiquitous Vol.11 No.9
For the improvement of living environment, there are more needs of the real time and online automatic noise monitoring system installed in many urban areas. In this project, the principle of noise audio frequency processing and coding algorithm was researched, including Discrete Cosine Transform and Wavelet Transform. The noise monitoring system solved the synchronous problem between the audio data and noise decibel, the special storage format separated the audio data which can be located in probability, and the audio data across segments to be played continually. The design of double-layer structure and isolating solved the problem of heat dissipating, waterproof and dustproof. In the experimental testing of the noise monitoring system, the noise decibel was affected by temperature and differential pressure, for improving its precision, the linear regression model is applied in the calculation of noise decibel. The least estimate method was used to calculate the residual for the automatic correction of the noise monitoring, and increase the accuracy of noise monitoring.
이동령,장홍지아,Yuting Zeng,김백기,권순욱 한국육종학회 2023 Plant Breeding and Biotechnology Vol.11 No.4
Rice domestication has led to cultivated rice with no or short awns. Discovery of novel genes associated to awn lengthis of paramount importance for understanding the molecular mechanisms for the transformation of wild rice long awns to awnlesscultivated rice. In this study, we employed Next-Generation Sequencing based QTL-seq approach to identify genomic regionsassociated with awn length using mapping population derived from a cross between awnless Tun Sart and awned Sobaekmangsudo. QTL-seq analysis identified two awn length QTLs viz. qAwn-4 (12.8-20.3 Mb) and qAwn-8 (22.3-27.2 Mb) on chromosome 4 and 8,respectively. Based on the sequence comparison between the two parents, Os04g0350700 (bHLH transcription factor) was postulatedto be the candidate of Awn-4 gene. Further discovery of the novel genes in qAwn-8 interval will provide insights into the geneticarchitecture of awn length.