FORMATION AND CHARACTERIZATION OF THREE TYPES OF YEAST INVERTASE

Three types of invertase (invertase I, II and III) are separatedfrom the soluble and insoluble fractions (4,500xg, 10 min supernatantand pellets of the homogenate, respectively) of baker's yeastby a DEAE cellulose column chromatography. The invertases Iand II are eluted with 0.1 M sodium acetate buffer (pH 3.9)and with 0.1 M sodium acetate buffer (pH 6.2) containing 0.1M NaCl from DEAE cellulose respectively, whereas the invertase-IIIremains adsorbed on the cellulose under these conditions. Theyare present in proportions of 2.5: 1 : 0.06 in the soluble fractionand 1.4: 1 : 0.12 in the insoluble fraction of the fresh baker'syeast cells. While in-vertase-II remains at a constant level,invertases I and III in the soluble fraction increase upon incubationof cells for the formation of invertase under the continuoussupply of sucrose. Invertases I and II differ from each other considerably in theoptimum pH and slightly in the response to (activation and inactivationby) crude papain and are identical with respect to the heatstability and probably to the affinity for sucrose. ¹Present address: Chemical Laboratory, Nippon Medical School,Konodai, Ichikawa-shi, Chiba-ken.     

PHOTOSYNTHETIC NITRITE REDUCTASE II. FURTHER PURIFICATION AND BIOCHEMICAL PROPERTIES OF THE ENZYME

1. Further purification of photosynthetic nitrite reductase (PNiR),which catalyzes the transfer of hydrogen (or electron) fromthe photolytic system to nitrite, is reported in this paper.Chromatography on DEAE- cellulose and Sephadex gel-filtrationwere effective for the purification of PNiR.
2. PNiR could befractionated into two components. It was inferredfrom the dataobtained that one of these components is identicalwith PPNR,and the other one may probably be a hitherto unreportedflavinenzyme containing FMN as prosthetic group.
3. The propertiesof these two components of PNiR were described,and the interrelationshipbetween these catalysts and possibleintermediary carriers ofthis electron transfer system was discussed.

¹Dedicated to Prof. H. TAMIYA on the occasion of his 60th birthday.This investigation was supported by a Grant in Aid for FundamentalScientific Research from the Ministry of Education (No. 407130-1961)and a Grant in Aid for Organized Scientific Research from theMinistry of Education (No. 95037-1960), which are gratefullyacknowledged here. The authors also wish to acknowledge thatthe progress of this study was facilitated by a Grant from theKAISEI-KAI. A preliminary report on this work was read beforethe 25th Annual Meeting of the Botanical Society of Japan (1960,Osaka).     

粳稻品种幼苗耐冷性比较研究

利用人工模拟低温胁迫的方法,研究了３个日本粳稻品种日本晴、金南风和福光以及２个台湾粳稻品种台竹１５７、加南２０的苗期耐冷性,并以当地推广高产籼稻品种特三矮２号作对照。从对株高、主茎叶片数、地上部干物重、死苗率等形态性状的调查和叶绿素含量、电解质外渗率等生理性状测定的结果显示,日本晴、金南风、福光和台竹１５７苗期的耐冷性较强,加南２０的耐冷性较弱,但比特三矮２号的耐冷性略强。这为防止早稻烂秧死苗而开