How Did the Clinical Medicine Progress during the Unified Silla Era: Installment of the Medical Education Center ‘Uihak 醫學’, and Its Effects

In this research, I aimed to recognize the historical meaning of installing the medical education center, ‘Uihak 醫學’, during the Silla 新羅 dynasty. ‘Uihak’ was installed in 692, in the first year of King Hyoso 孝昭 ’s rule. ‘Uihak’ was founded by using various Chinese medical classics as its textbooks for medical education, such as the Classic of Plain Questions 素問經.The wooden prescriptions excavated from Anapji 雁鴨池, which is thought to have been created in the middle of the 8th century, and the Chinese medical book Prescriptions for Universal Benefit 廣利方, which the envoy of Silla tried to acquire in 803, reflect the idea on medicine during that period in Silla. By this time, the field of medicine began to develop the idea to discern the locations and mechanism of disease patterns by centering on the viscera and bowels 臟腑 while making use of the herbal prescriptions based on various drugs. This means that clinical medicine founded upon the medical education achieved in ‘Uihak’ was being realized in the medical fields as well. According to the Chronicles of the Three States 三國史記, for the illness of Queen Sunduk 善德 in 636, medicine, praying, and the method of esoteric Buddhism 密敎 was tried out as a means of her cure. Comparatively, for the treatment of the first rank Chunggong 忠公 in 822, the Kingdom’s representative doctor 國 醫 with professional medical knowledge was sought out to fine a cure. The analyses of the human disease, diagnosis, treatment method, etc., given by the kingdom’s representative doctor were identical to those recommended in the medical textbooks used in ‘Uihak’. As such, we can posit that his academic background was ‘Uihak’ and the education given there.The Classic of Materia Medica 本草經, which was also used in ‘Uihak’, was a book professionally centered on the drug branch of medicine. The Classic of Materia Medica is a terminology referring to various books on drugs, including the Shennong’s Classic of Materia Medica 神農本草經, the Variorum of the Classic of Materia Medica 本草經集注, the Newly Revised Materia Medica 新修本草, etc. Thus, we cannot specify what the classic of Materia Medica actually taught, based on only its terminology. However, based on the wooden prescriptions excavated from Anapji, and from the terminology of drugs recorded in the drug trading document Purchase List for Silla goods 買新羅物解 preserved in Shosoin 正倉院 of Japan, we can hypothesize that in the middle of the 8th century, the Newly Revised Materia Medica was indeed being circulated. Based on these evidences, we can also hypothesize that Silla was part of the network of drug trading that encompassed the entire region of Asia.After unifying the Korean peninsula, the Kingdom of Silla actively adopted the medical educational system of Tang 唐 China. By using the obtained medical knowledge, Silla cured illnesses and used the medical knowledge on various drugs recorded in the Newly Revised Materia Medica to pursue trade with China, Japan, and other countries. Through the installation of ‘Uihak’, the same medicine has now begun to be officially used in East Asia, including Silla

A single amino-acid substitution in the sodium transporter HKT1 associated with plant salt tolerance

© 2016 American Society of Plant Biologists. All rights reserved. A crucial prerequisite for plant growth and survival is the maintenance of potassium uptake, especially when high sodium surrounds the root zone. The Arabidopsis HIGH-AFFINITY K+ TRANSPORTER1 (HKT1), and its homologs in other salt-sensitive dicots, contributes to salinity tolerance by removing Na+ from the transpiration stream. However, TsHKT1;2, one of three HKT1 copies in Thellungiella salsuginea, a halophytic Arabidopsis relative, acts as a K+transporter in the presence of Na+ in yeast (Saccharomyces cerevisiae). Amino-acid sequence comparisons indicated differences between TsHKT1;2 and most other published HKT1 sequences with respect to an Asp residue (D207) in the second pore-loop domain. Two additional T. salsuginea and most other HKT1 sequences contain Asn (N) in this position. Wild-type TsHKT1;2 and altered AtHKT1 (AtHKT1N-D) complemented K+-uptake deficiency of yeast cells. Mutanthkt1-1 plants complemented with both AtHKT1N-D and TsHKT1;2 showed higher tolerance to salt stress than lines complemented by the wild-type AtHKT1. Electrophysiological analysis in Xenopus laevis oocytes confirmed the functional properties of these transporters and the differential selectivity for Na+ and K+based on the N/D variance in the pore region. This change also dictated inward-rectification for Na+ transport. Thus, the introduction of Asp, replacing Asn, in HKT1-type transporters established altered cation selectivity and uptake dynamics. We describe one way, based on a single change in a crucial protein that enabled some crucifer species to acquire improved salt tolerance, which over evolutionary time may have resulted in further changes that ultimately facilitated colonization of saline habitats

Overexpression of arabidopsis YUCCA6 in potato results in high-auxin developmental phenotypes and enhance

Indole-3-acetic acid (IAA), a major plant auxin, is produced in both tryptophan-dependent and tryptophanindependent pathways. A major pathway in Arabidopsis thaliana generates IAA in two reactions from tryptophan. Step one converts tryptophan to indole-3-pyruvic acid (IPA) by tryptophan aminotransferases followed by a rate-limiting step converting IPA to IAA catalyzed by YUCCA proteins. We identified eight putative StYUC (Solanum tuberosum YUCCA) genes whose deduced amino acid sequences share 50%-70% identity with those of Arabidopsis YUCCA proteins. All include canonical, conserved YUCCA sequences: FATGY motif, FMO signature sequence, and FAD-binding and NADPbinding sequences. In addition, five genes were found with ~50% amino acid sequence identity to Arabidopsis tryptophan aminotransferases. Transgenic potato (Solanum tuberosum cv. Jowon) constitutively overexpressing Arabidopsis AtYUC6 displayed high-auxin phenotypes such as narrow downward-curled leaves, increased height, erect stature, and longevity. Transgenic potato plants overexpressing AtYUC6 showed enhanced drought tolerance based on reduced water loss. The phenotype was correlated with reduced levels of reactive oxygen species in leaves. The results suggest a functional YUCCA pathway of auxin biosynthesis in potato that may be exploited to alter plant responses to the environment. © 2012 The Author

A Single Amino-Acid Substitution in the Sodium Transporter HKT1 Associated with Plant Salt Tolerance

A crucial prerequisite for plant growth and survival is the maintenance of potassium uptake, especially when high sodium surrounds the root zone. The Arabidopsis HIGH-AFFINITY K(+) TRANSPORTER1 (HKT1), and its homologs in other salt-sensitive dicots, contributes to salinity tolerance by removing Na(+) from the transpiration stream. However, TsHKT1;2, one of three HKT1 copies in Thellungiella salsuginea, a halophytic Arabidopsis relative, acts as a K(+) transporter in the presence of Na(+) in yeast (Saccharomyces cerevisiae). Amino-acid sequence comparisons indicated differences between TsHKT1;2 and most other published HKT1 sequences with respect to an Asp residue (D207) in the second pore-loop domain. Two additional T. salsuginea and most other HKT1 sequences contain Asn (n) in this position. Wild-type TsHKT1;2 and altered AtHKT1 (AtHKT1(N-D)) complemented K(+)-uptake deficiency of yeast cells. Mutant hkt1-1 plants complemented with both AtHKT1(N)(-)(D) and TsHKT1;2 showed higher tolerance to salt stress than lines complemented by the wild-type AtHKT1. Electrophysiological analysis in Xenopus laevis oocytes confirmed the functional properties of these transporters and the differential selectivity for Na(+) and K(+) based on the n/d variance in the pore region. This change also dictated inward-rectification for Na(+) transport. Thus, the introduction of Asp, replacing Asn, in HKT1-type transporters established altered cation selectivity and uptake dynamics. We describe one way, based on a single change in a crucial protein that enabled some crucifer species to acquire improved salt tolerance, which over evolutionary time may have resulted in further changes that ultimately facilitated colonization of saline habitats

Gender Biases in Facial Impressions

First impressions from faces are consequential, shaping important social outcomes. In this thesis, based on converging evidence from empirical studies and computational models, I show that women are at a disadvantage because of gender biases in impressions. First, impressions of women are less differentiated than impressions of men and more highly valence-laden (Part I). Specifically, impressions of social traits (e.g., trustworthiness, dominance) are more highly intercorrelated for women than for men. Second, computational models of first impressions show that although people use similar facial information when forming impressions of women and men, they interpret this information differently (Part II). For instance, while masculinity cues tend to contribute to positive impressions of men, they tend to contribute to negative impressions of women. Third, this is particularly salient in the case of impressions of competence (Part III). Specifically, when faces are manipulated to look competent but not attractive, competence impressions correlate highly with multiple measures of masculinity. The current work shows that (1) impressions of women are more simplified than those of men; with positive impressions of women being contingent on the typicality of their looks and (2) women are perceived as less competent than men; with competence impressions of women being contingent on their attractiveness. The current work highlights the importance of social categorization in first impressions and reveals a major obstacle to gender equality and social justice at large