Is this you? Create Your Porfile

Masahiko Komoto

University of Agriculture, Faisalabad

Archive Network Publication Hotspot Collaboration

Network

Latest external collaboration on country level. Dive into details by clicking on the dots.

Explore More

Hotspot

Dive into the research topics where Masahiko Komoto is active.

Explore More

Publication

Featured researches published by Masahiko Komoto.

Bulletin of the Agricultural Chemical Society of Japan | 1972

Sugars in the Nondialyzable Melanoidin

Hironobu Tsuchida; Masahiko Komoto

アンモニアカラメルの一製造条件に従って,グルコースとアンモニアから調製した非透析性メラノイジンおよび,それをさらにDEAE-セルロースカラムによって分画したメラノイジン(F2, F3, F4, F5およびF6)中に存在する糖類について,各種検討を行なった. 1)該メラノイジンの酸加水分解物をAmberlite IR-120 (H+型)処理,ついで活性炭処理してえた画分Aについて, PPCおよびGLCによって検討を行なった.その結果,この画分の大部分は糖類であり,グルコース,フラクトース,アラビノースのほかに,痕跡量の4種の未知物質の存在が認められた. 2)該メラノイジンの酸加水分解の最適条件を検索した.その結果, 0.1N塩酸中, 1000°C, 7時間加熱した条件が比較的好ましい水解条件であることがわかった.また,水解最適条件の検索中,水中で該メラノイジンを煮沸しただけでも,全糖量の約1/2量の還元性糖類が遊離してくることがわかった.このことから全糖の約1/2の糖類は,該メラノイジン中でゆるい結合をなしているものと予想される. 3)各々のメラノイジン中の全糖量,および各種糖類の定量を行なった.全糖量はPark-Johnson法で,各種糖類についてはTMS誘導体として, GLC(内部標準法)で定量した.その結果,全糖の含量はいずれのメラノイジン中にも2～3%存在し,各々のメラノイジンのO/C値と糖量との間に,なんら相関性はみとめられなかった.また,各種糖類の定量の結果,いずれのメラノイジン中にもグルコースが圧倒的に多く含まれていたが,グルコース含量の最も多いのは, F2であった.また, F3およびF4はフラクトースが, F5ではアラビノースが比較的多く含まれていた.これらの結果から,各々のメラノイジンの生成順位(F2, F3, F4, F5の順で生成)が予想される.

Agricultural and biological chemistry | 1965

A Modified Procedure for the Synthesis of Sucrose

Hironobu Tsuchida; Masahiko Komoto

Agricultural and biological chemistry | 1962

Chemical Studies on the Reaction Products of Glucose and Ammonia Part X

Satoshi Fujii; Hironobu Tsuchida; Masahiko Komoto

Agricultural and biological chemistry | 1967

Chemical Studies on the Reaction Products of Methylpentose and Ammonia

Hironobu Tsuchida; Masahiko Komoto

Agricultural and biological chemistry | 1966

The Oligosaccharides Produced from Sucrose by Dematium pullulans Part I

Hironobu Tsuchida; Satoshi Fujii; Masahiko Komoto

神戸大学農学部研究報告 | 1986

Studies on Improvement of Quality of Sago Starch. Part II. Effect of the Manufacturing Condition on the Quality of Sago Starch

Satoshi Fujii; Shiro Kishihara; Hajime Tamaki; Masahiko Komoto

Kagaku Kogaku Ronbunshu | 1986

Clarification of molasses through self-rejecting membrane formed dynamically on porous ceramic tube.

Shiro Kishihara; Satoshi Fujii; Masahiko Komoto; Hajime Tamaki; Syoichi Wakabayashi

membrane | 1983

Mechanism of membrane-permeation of coloring matters in ultrafiltration of caramel solution.

Shiro Kishihara; Kazuhiko Kamada; Satoshi Fujii; Masahiko Komoto

Agricultural and biological chemistry | 1968

Studies on the Hypertrophic Disease of Cherry (Genus Prunus ), So-called "Witch's Broom" Caused by Taphrina wiesneri :Part I. On the Metabolites of T wiesneri

Satoshi Fujii; Hiroo Aoki; Masahiko Komoto; Katsura Munakata; Teiichi Tamura

Agricultural and biological chemistry | 1967

Chemical Studies on the Reaction Products of Methylpentose and Ammonia: Part 1. 4(5)-(L-Erythro-2,3-Dihydroxybutyl)Imidazole from the Reaction of L-Rhamnose with Ammonia

Hironobu Tsuchida; Masahiko Komoto

Explore More

Collaboration

Dive into the Masahiko Komoto's collaboration.

Top Co-Authors

Satoshi Fujii

University of Agriculture

View shared research outputs

Top Co-Authors

Hironobu Tsuchida

University of Agriculture

View shared research outputs

Top Co-Authors

Katsura Munakata

Nagoya University

View shared research outputs

Top Co-Authors

Shiro Kishihara

Kobe University

View shared research outputs

Top Co-Authors

Hiroo Aoki

Imperial College London

View shared research outputs

Top Co-Authors

Hajime Tamaki

Kobe University

View shared research outputs

Top Co-Authors

Teiichi Tamura

Nagoya University

View shared research outputs

Top Co-Authors

Teiichi Tamura

Nagoya University

View shared research outputs

Top Co-Authors

Hiroo Aoki

Imperial College London

View shared research outputs

Explore More