Chonbuk National University

About: Chonbuk National University is a education organization based out in Jeonju, South Korea. It is known for research contribution in the topics: Apoptosis & Graphene. The organization has 14820 authors who have published 28884 publications receiving 554131 citations.

Proposed Nomogram Predicting the Individual Risk of Malignancy in the Patients with Branch Duct Type Intraductal Papillary Mucinous Neoplasms of the Pancreas

Abstract: Objectives:This study evaluated individual risks of malignancy and proposed a nomogram for predicting malignancy of branch duct type intraductal papillary mucinous neoplasms (BD-IPMNs) using the large database for IPMN.Background:Although consensus guidelines list several malignancy predicting facto

Induction of maize acid phosphatase activities under phosphorus starvation

Abstract: Large variation in phosphorus-(P) acquisition efficiency exists among maize inbred and hybrid genotypes. Acid phosphatases are a type of enzyme that affects P acquisition and P-use efficiency in plants. The objectives of this research were (1) to characterize acid phosphatase activity in maize grown hydroponically under P starvation, and (2) to determine if there is differential induction of acid phosphatases in two maize genotypes previously characterized as P efficient (Mo17) and P inefficient (B73). B73 and Mo17 seedlings were grown hydroponically and both intracellular and secreted acid phosphatase activities were characterized. Fresh seedling weight of both genotypes decreased under P starvation, but percent fresh weight allocated to roots increased 14 days after P starvation in B73. Soluble protein concentration in shoots and roots was affected little, but secreted protein decreased by 40 and 20% in B73 and Mo17 seedlings grown without P for 14 days. Intracellular and secreted acid phosphate activity increased substantially in leaves and roots in B73 and Mo17 in response to P starvation. Secreted APase activity per unit protein increased 310 and 300% in B73 and Mo17, respectively, 7 days after P withdrawal. One of the minor isozymes identified on non-denaturing PAGE, was increased specifically in response to P starvation in both maize genotypes. The patterns and levels of change in APase activities in B73 and Mo17 were not sufficiently different to account for the diverse growth response of these genotypes in low-P conditions. The results suggest that APases may not be a major mechanism for scavenging or acquiring P and changes in APases may reflect a state of P stress in both varieties. Other factors such as root architecture, secretion of low-molecular weight carboxylates and microbial interactions might explain the difference between these two genotypes.

Crack-induced Ag nanowire networks for transparent, stretchable, and highly sensitive strain sensors

Abstract: Crack-based strain sensor systems have been known for its high sensitivity, but suffer from the small fracture strain of the thin metal films employed in the sensor which results in its negligible stretchability. Herein, we fabricated a transparent (>90% at 550 nm wavelength), stretchable (up to 100%), and sensitive (gauge factor (GF) of 30 at 100% strain) strain gauge by depositing an encapsulated crack-induced Ag nanowire (AgNW) network on a hydroxylated poly(dimethylsiloxane) (PDMS) film. Stretching the encapsulated AgNWs/PDMS resulted in the formation of a percolation network of nanowire ligaments with abundant percolation paths. The encapsulating polymer was designed to adhere strongly to both the AgNW and PDMS. The improved adhesion ensured the resistance of the crack-induced network of AgNWs varied reversibly, stably, and sensitively when stretched and released, at strains of up to 100%. The developed sensor successfully detected human motions when applied to the skin.