A1 Health Chemicals Co., Ltd. No. 1. 7, South Round Road, Zhang. Jia. Gang City, Jiangsu Province, China. Chemical & Biological Investigation of Acacia auriculiformis. 03-4 Formula: C9H14ClN : PHENETHYLAMINE; 2. Methods, compounds and compositions for. 4-hydroxybenzyl O n-propyl 4-pyrenyl 3,4,5-trihydroxy- O 2-imino- 3-furyl. N-benzyl-phenethylamine;. Plant phenolic compounds for food, pharmaceutical and cosmetics production. Plant phenolic compounds for food, pharmaceutical. Bioscience, Biotechnology and Biochemistry. Contents and Abstracts of Latest Issue of BBB(Vol. No. 5 1. 99. 7)Studies on Biosynthesis of Brassinosteroids. Akira Sakurai and Shozo. Fujioka 7. 57. Effect of Dietary n- 3/n- 6 Fatty Acid Ratio on the Total. Count, Fatty Acid Composition, and Histamine and Leukotriene Concentrations. Mast Cells in Tunica Mucosa. Bronchiorum of Type I Allergic Guinea Pig. Masanori Kuwamori, Masahiro Wada, Toshichika Takita, Tadahiro Tadokoro. Akio Maekawa, and Satoshi Innami 7. Oxygen Sensitivity of Nif. A Protein of Azospirillum lipoferum. FS as Suggested by Gene Cloning and Expression in Escherichia coli. Toru Shigematsu, Akio Inoue, Makoto Hidaka, Haruhiko Masaki, and Takeshi. Uozumi 7. 68. In Vitro and in Vivo Anti- platelet Effects of Enzymatic. Hydrolysates of Collagen and Collagen- related Peptides. Isao Nonaka, Shin- ichiro Katsuda,Takashi Ohmori, Tamotsu Shigehisa. Tatsuyoshi Nakagami, and Susumu Maruyama 7. Growth Inhibition, Morphological Change, and Ectoenzyme. Release of LLC- PK1 Cells by Phosphatidylinositol- specific Phospholipase. C of Bacillus thuringiensis. Chisako Itami, Yukio Kimura, Ryo Taguchi, Hiroh Ikezawa, and Toshikatsu. Nakabayashi 7. 76. Characterization of the Protein and Glycan Moieties in. Different Forms of Bovine Lactoferrin. Xiu- Yun Ye, Toshihide Nishimura, and Shigeru Yoshida 7. Thermal Gelation Profile Changes in Reconstituted Actomyosin. Storage under a High Salt Concentration and Low Temperature. Hiroyuki Tanji, Yoshihide Ikeuchi, Masatoshi Yoshizawa, and Atsushi. Suzuki 7. 87. Characterization of 3. Da Fragments Derived from . WO2. 4Wataru Ogasawara, Nobuhide Abe, Takashi Hagio, Hirofumi Okada, and. Yasushi Morikawa 8. Effects of Ethylene and Gibberellins on the Elongation. Rice Seedlings (Oryza sativa L.)Koji Furukawa, Young- Yell Yang, Ichiro Honda, Tadashi Yanagisawa, Akira. Sakurai, Nobutaka Takahashi, and Yuji Kamiya 8. Acyl Amino Acid Derivatives as Novel Inhibitors of Influenza. Neuraminidase. Mitsuyo Kondoh, Toshiyuki Furutani, Masayuki Azuma, Hiroshi Ooshima. Benzoic acid, 3,4,5-trihydroxy- (2R,3R)-2. Triglycerides are the principal form of fat in the diet. EINECS 200-115-8;HSDB 2132;NSC 249188;Phenethylamine. Jyoji Kato 8. 70. Cloning and Sequencing of a c. DNA Encoding . NTC- 4. 4-pyrenyl: 86: 3,4,5-trihydroxy-2-imino-3-furyl: phenyl: propyl: 87. CANNABIS SATIVA 29 29 From: Medicinal Plants of the World, vol. 3: Chemical Constituents, Traditional and Modern Medicinal Uses By: I. Ross © Humana Press Inc. Lipid Peroxidation in Linoleic Acid Micelles Caused by H 2 O 2 in the Presence of Myoglobin Tsutomu NAKAYAMA, Youhei CHIBA, Kei HASHIMOTO. Hideo Hayashi, Tadashi Nakatani, Yoshiki Inoue, Mitsuru Nakayama, and. Hiroshi Nozaki 9. Peculiar Archaea Found in Japanese Paddy Soils. Yuko Kudo, Satoshi Shibata, Taro Miyaki, Toshihiro Aono, and Hiroshi. Oyaizu 9. 17. Grandinal, a New Phloroglucinol Dimer from Eucalyptus. Inder Pal Singh, Rie Hayakawa, Hideo Etoh,, Midori Takasaki, and Takao. Konoshima 9. 21. Occurrence of Free N- Glycans in Pea (Pisum sativum. L). Seedlings. Yoshinobu Kimura, Shigeaki Takagi, and Tomonori Shiraishi 9. Structure and Activity of a New Form of the Glutamate. Transporter of the Nematode Caenorhabditis elegans. Tsuyoshi Kawano, Kyoko Takuwa, and Terumi Nakajima 9. Studies on Biosynthesis of Brassinosteroids. Akira Sakurai. Feeding labeled compounds. There are two pathways. C6- oxidation pathway and late C6- oxidation pathway, both. Recent findings. of brassinosteroid- deficient mutants of Arabidopsis and the garden pea. Key words: biosynthesis; brassinosteroids; plant cell cultures; Catharanthus. Effect of Dietary n- 3/n- 6 Fatty Acid Ratio on the Total. Count, Fatty Acid Composition, and Histamine and Leukotriene Concentrations. Mast Cells in Tunica Mucosa. Bronchiorum of Type I Allergic Guinea Pig. Masanori Kuwamori,* Masahiro Wada,* Toshichika Takita,* Tadahiro Tadokoro,**Akio Maekawa,** and Satoshi Innami *. Guinea pigs fed on diets containing. Overall, the upper limit for the dietary n- 3/n- 6 ratio. I allergic responses is suggested to be. Key words: n- 3/n- 6 fatty acid ratio; mast cells; eosinophils; leukotriene. Oxygen Sensitivity of Nif. A Protein of Azospirillum lipoferum. FS as Suggested by Gene Cloning and Expression in Escherichia coli. Toru Shigematsu, Akio Inoue, Makoto Hidaka, Haruhiko Masaki, and Takeshi. Uozumi. The amino acid sequence. A. The. Nif. A function on the nif. H promoter was examined in Escherichia coli using. A driver plasmid and a nif. H- lac. Z reporter plasmid. H promoter by the Nif. A. was evaluated with the . Human platelet aggregation was suppressed by more than 5. Gly- Pro- Arg and such Gly- Pro- Arg- containing peptides as Gly- Pro- Arg- Gly. Gly- Pro- Arg- Gly- Pro, Gly- Pro- Arg- Pro- Pro, and Gly- Pro- Arg- Pro- Pro- Pro at. M. The inhibitory effects of these peptides were. PRP than in rat PRP. Intravenous and oral administrations of Gly- Pro- Arg. DIC in rats. Collagen itself has been regarded. Key words: collagen; collagenase; collagen- related synthetic peptide; fibrinogen. Growth Inhibition, Morphological Change, and Ectoenzyme. Release of LLC- PK1 Cells by Phosphatidylinositol- specific Phospholipase. C of Bacillus thuringiensis. Chisako Itami, Yukio Kimura, Ryo Taguchi,* Hiroh Ikezawa,* and Toshikatsu. Nakabayashi. In contrast with normal cells, the cells cultured in the presence. PI- PLC showed needle- like appendages which seemed to have been formed. When LLC- PK1 cells were treated with PI- PLC, significant amounts. I were released. specifically from the apical surface of the LLC- PK1 cells. Furthermore. PI- PLC treatment caused a delay of enzyme production and dome formation. N- Terminal amino. Da fragments. (residues 6. LF- a coincide with those of. Da fragments of LF- b, respectively. All these fragments. PAS staining, were not stained after being treated. F. This treatment changed the 5. Da fragments. of LF- a to the 5. Da fragments, respectively, whose molecular masses. LF- b. The 5. 8 and 5. Da fragments of LF- a bound to the lectin, Ricinus communis agglutinin. Da fragments of LF- b hardly bound to it. Key words: lactoferrin; glycoprotein; glycopeptide; glycan; milk- 7- Thermal Gelation Profile Changes in Reconstituted Actomyosin. Storage under a High Salt Concentration and Low Temperature. Hiroyuki Tanji, Yoshihide Ikeuchi,*. The addition of. actin resulted in a pronounced peak maximum at about 5. The more the. initial actin concentration was increased, the greater was the area of. However, this area was markedly diminished with increasing. As a result, the dynamic rheological pattern was transformed. The relationship between the. G ' value at 8. 0. This. profile changed during storage, depending on the extent to denaturation. RAM). The G ' value. M KCl with a small actin/myosin ratio of 0. G. ' value with a large actin/myosin ratio of 0. In 1. 5 M KCl, all the G ' values declined to the level with myosin. The time- course plots of the remaining actin. RAM at different weight ratios of actin to myosin after. M or 1. 5 M KCl showed a decrease in the actin content. KCl concentration. M KCl promoted the denaturation of actin in RAM faster than with. M KCl. The surface hydrophobicity of each RAM sample progressively. SH) content during storage was observed. It is concluded. that changes in the heat- induced gelation properties of actomyosin during. SH content. and hydrophobicity. Key words: thermal gelation; denaturation; myosin; actin; actomyosin- 8- Characterization of 3. Da Fragments Derived from . We detected and analyzed the structures of key intermediary. Da derived from . We show here. a degradation process of . The gene product was secreted into the. N- and C- termini. KEX2- like processing was suggested to occur at. C- terminus in both A. Specific activity. N- glycosylation. The. mdl. A expression was induced by lipids and regulated transcriptionally in. A. Promoter deletion analysis showed. A. The promoter. sequence of mdl. A was compared to that of the Geotrichum candidum lipase. Key words: lipase: gene expression; Penicillium camembertii ; Aspergillus. Synthesis of 2. 4a- Substituted Milbemycin A4 Derivatives. Their Acaricidal Activityagainst Tetranychus urticae. Yoshihisa Tsukamoto, Hisaki Kajino, Kazuo Sato, Keiji Tanaka, and Toshiaki. Yanai. The acaricidal activity of each synthesized. Tetranychus urticae was tested and some of the derivatives. A4. Among them, 2. A4 (2. 2) was the most active derivative, with 1. Key words: milbemycin; 2. A4 derivatives; Tetranychus. Purification of Amylases and Other Enzymes by a Forced- affinity. Chromatography Method. Mikihiko Kobayashi, Yutaka Sasaki, and Shoichi Kobayashi. National Food Research Institute, Kannondai, Tsukuba 3. Japan. Received October 2. The elution pattern of Taka- amylase A (TAA). Am. S) concentration in the equilibrating. TAA had an affinity for the gels with a starch structure, and desorbed. Am. S. Bound TAA was also eluted. The Am. S stimulative effect was partially. Besides TAA, various other. Moreover, affinity purifications. By the aid of forced effects. Am. S, various carbohydrases could be purified by the affinity gels of. Key words: affinity chromatography; amylases; forced- affinity chromatography. Lipid Peroxidation in Linoleic Acid Micelles Caused by. H2. O2 in the Presence of Myoglobin. Tsutomu Nakayama. In the first phase, it. No effects of diethylenetriaminepentaacetic. DTPA) on the induction period (the period during the first phase). MOCR) in the second phase indicate. The differing dose effects of ascorbic acid. Substrates such as (2. E,6. E )- farnesyl pyrophosphate, (2. Z,4. E )- . It is suggested that (2. E,6. E )- farnesyl pyrophosphate is converted. Z,4. E )- . Their. FAB- MS and 1. 3C- NMR spectroscopies, and they. O- . The optimum conditions. O- . The direct. expression of the TGase gene in E. Therefore, we fused the chemically. TGase gene coding for the entire 3. T7 gene 1. 0 leader peptide (2. The TGase gene was expressed. E. Restoring 1. 5 amino acid residues. TGase by a two- step deletion. TGase. Although the mature form had less. TGase activity than native TGase, because of the poor refolding rate, these. TGase. Key words: transglutaminase; gene synthesis; high- level expression; fused. Effects of Dietary Sesaminol and Sesamin on Eicosanoid. Production and Immunoglobulin Level in Rats Given Ethanol. Michiko Nonaka, Kanae Yamashita,* Yoshie Iizuka,* Mitsuo Namiki,* and. Michihiro Sugano. Laboratory of Food Science, Department of Food Science and Technology. School of Agriculture, Kyushu University, Higashi- ku, Fukuoka 8. Yellow n. Euphoria Gen 2 contains Amphetamines? My understanding is limited. I was reading the ingredients listed on the label of my Yellow n. Euphoria Gen 2 and noticed it contains Acacia Rigidula. I decided to do a little research and found the following article: http: //www. The article states that Acacia Rigidula contains nicotine, mescaline and four amphetamines among many other compounds. Can someone please clear this up for me? I guess they are only in trace amounts but wouldn't this make it illegal? It also states that the quantities of these these compounds in Acacia Rigidula varies during the seasons. Would this mean that different batches of Yellow n. Euphoria gen 2 would have slightly different effects depending on the when the Acacia Rigidula was cultivated?
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