Identification and Characterization of a Biodegradative Form of Threonine Dehydratase in Senescing Tomato (Lycopersicon esculentum) Leaf

Threonine dehydratase (TD; EC.4.2.1.16) is a key enzyme involved in the biosynthesis of isoleucine. Inhibition of TD by isoleucine regulates the flow of carbon to isoleucine. We have identified two different forms of TD in tomato (Lycopersicon esculentum) leaves. One form, present predominantly in younger leaves, is inhibited by isoleucine. The other form of TD, present primarily in older leaves, is insensitive to inhibition by isoleucine. Expression of the latter enzyme increases as the leaf ages and the highest enzyme activity is present in the old, chlorotic leaves. The specific activity of the enzyme present in older leaves is much higher than the one present in younger leaves. Both forms can use threonine and serine as substrates. Whereas TD from the older leaves had the same Km (0.25 mM) for both substrates, the enzyme from the young leaves preferred threonine (Km = 0.25 mM) over serine (Km = 1.7 mM). The molecular masses of TD from the young and the old leaves were 370,000 and 200,000 D, respectively. High levels of the isoleucine-insensitive form of threonine dehydratase in the older leaves suggests an important role of threonine dehydratase in nitrogen remobilization in senescing leaves.     

Are viruses important partners in pelagic fend webs?

Viruses have been assumed to play a rather negligible role as partners in microbial food web dynamics. However, recent discoveries suggest that the rate of virally induced lysis of marine microbial populations may be significant. This, in turn, may have important consequences for the developing conceptual framework of the microbial food web.     

Effect of ovarian antral follicle cauterization on the interestrus interval of the gilt

The objective of the present study was to determine if destruction of ovarian antral follicles by laser-cauterization affects CL lifespan during the estrous cycle of the gilt. Cyclic gilts were randomly assigned to either SHAM, laser (L) or laser-estradiol (L-E2) treatment groups, with the L-E2 group receiving a 5-mg intramuscular (i.m.) injection of estradiol-17beta cypionate at the time of the first surgery. Ovarian antral follicles were laser-cauterized on either Days 12 and 14 (L12) or Days 14 and 17 (L14) of the estrous cycle. In the L12-E2 group, 3 of 4 gilts had extended mean interestrus intervals of more than 22 days compared with 0 of 4, 0 of 6, 0 of 7 and 1 of 5 gilts in the SHAM, L12, L14 and L14-E2 groups, respectively. The L12-E2 gilts had a longer (P<0.05) mean interestrus interval (23.5+/-1.3 days) than the L12 (20.0+/-1.1 days), L14 (20.7+/-1.0 days) and SHAM (20.5+/-1.3 days). The mean interestrus interval of L14-E2 gilts (21.8+/-1.2 days) did not differ from those of the L12-E2 group or the L12, L14 and SHAM group gilts. Six additional gilts were injected with 5 mg estradiol cypionate-17beta to serve as nonsurgical controls for E2 treatment. Gilts (3 of 3) given an E2 injection on Day 12 had extended mean interestrus interval (26.0+/-2.6 days), while 2 of 3 gilts injected with E2 on day 14 had extended mean interestrus intervals (27.7+/-2.1 days). These results indicate that in cyclic gilts destruction of ovarian follicles by laser-cauterization did not affect CL lifespan, and that luteolysis is not dependent on the presence of antral follicles.     

植物抗真菌病害基因工程研究概述

真菌病害是作物损失的主要原因之一。作物病害的80％由病原真菌所引起。真菌病的危害性极大,如19世纪中期,爱尔兰曾因晚疫病严重爆发而导致马铃薯绝产,致使100万人挨饿、200万人被迫背井离乡远迁北美。过去,人们对作物真菌病害的控制有三条途径:(1)选育并采用抗病品种,育种方法为通过有性杂交利用作物本身或近缘种中的抗性基因;(2)施用化学杀菌剂;(3)采取预防措施,如轮作、     

Partitioning behavior and enrichment of proteins with reversed micellar extraction: I. forward extraction of proteins from aqueous to reversed micellar phase

Protein extractions using aerosol OT (AOT)-isooctane reverse micelle solutions have been studied to explore the potential for separating and enriching proteins with the reversed micellar extraction. The effects of pH, ionic strength, and different cations of chlorides in a bulk aqueous phase and of AOT concentration in an organic phase on the partitioning of lysozyme and myoglobin and the solubilization of water are presented in detail. The extraction of lysozyme was affected by the concentration of potassium or barium but was almost independent of that of sodium or calcium, whose ionic diameter is smaller than that of potassium and barium. For the extraction of myoglobin, however, the effect of barium concentration was not appreciable. Lysozyme could be enriched into the reversed micellar phase up to 30 times the aqueous feed concentration. (c) 1993 John Wiley & Sons, Inc.     

TNF and PGE(2) in human monocyte-derived macrophages infected with Chlamydia trachomatis

In this study levels of prostaglandin E(2) (PGE(2)), tumour necrosis factor (TNF) and interleukin-1 (IL-1) alpha in medium from monocyte derived macrophages (MdM) infected with Chlamydia trachomatis (L(2)/434/Bu or K biovars). TNF and PGE(2) were found in both cases while IL-1 alpha was not detected. Both TNF and PGE(2) levels were higher in the medium of the MdM infected with K biovars. TNF reached maximum levels 24 h postinfection, and then declined, while PGE(2) levels increased continuously during the infection time up to 96 h post-infection. Addition of dexamethasone inhibited production of TNF and PGE(2). Inhibition of PGE(2) production by indomethacin resulted in increased production of TNF, while addition of PGE(2) caused partial inhibition of TNF production from infected MdM.