Interactions between subdomains in the partially folded state of staphylococcal nuclease

Staphylococcal nuclease can be roughly divided into a beta-subdomain in N-terminal and an alpha-subdomain in C-terminal. They fold sequentially under certain conditions, causing a partially folded intermediate state in which the native-like beta-barrel persists while alpha-helix regions largely disorder. To investigate the possible long-range interactions between the two subdomains in the intermediate, N-terminal fragments have been used as intermediate analogues, with polypeptide ending at positions 102, 110, 121 and 135 and with a tryptophan substitution at position 66 or 88 to facilitate the observation of the beta-barrel. Segment-resolved interactions between beta-barrel and residues 103-135 were identified by comparing their spectroscopic properties of fluorescence, circular dichroism and NMR and by their stability. Except for unstable V66W102, the guanidine and thermal denaturation of fragments are cooperative and well approximated by the two-state transition. Minimal stable structure units of both tryptophan-containing fragments comprise residues 1-110. With the main interaction in segment 103-135, residues 103-110 contribute approximate 2 kcal/mol to the stability. Elongation of C-terminal from 110 residue neither increases the stability nor alters the structure core of the G88W fragments. However, residues 111-121 influence the tertiary structure of the V66W fragments suggesting its minor interactions with beta-barrel.     

Ectopic deposition of lignin in the pith of stems of two Arabidopsis mutants

The biosynthesis of lignin in vascular plants is regulated both developmentally and environmentally. In the inflorescence stems of Arabidopsis, lignin is mainly deposited in the walls of xylem cells and interfascicular fiber cells during normal plant growth and development. The mechanisms controlling the spatial deposition of lignin remain unknown. By screening ethyl methanesulfonate-mutagenized populations of Arabidopsis, we have isolated two allelic elp1 (ectopic deposition of lignin in pith) mutants with altered lignin deposition patterns. In elp1 stems, lignin was ectopically deposited in the walls of pith parenchyma cells in addition to its normal deposition in the walls of xylem and fiber cells. Lignin appeared to be deposited in patches of parenchyma cells in the pith of both young and mature elp1 stems. The ectopic deposition of lignin in the pith of elp1 stems was accompanied by an increase in the activities of enzymes in the lignin biosynthetic pathway and with the ectopic expression of caffeoyl coenzyme A O-methyltransferase in pith cells. These results indicate that the ELP1 locus is involved in the repression of the lignin biosynthetic pathway in the pith. Isolation of the elp1 mutants provides a novel means with which to study the molecular mechanisms underlying the spatial control of lignification.     

Sativin: a novel antifungal miraculin-like protein isolated from legumes of the sugar snap Pisum sativum var. macrocarpon

An antifungal protein designated sativin was isolated from the legumes of the sugar snap (also known as honey pea) Pisum sativum var. macrocarpon. The procedure entailed extraction, affinity chromatography on Affi-gel blue gel and ion exchange chromatography on CM-Sepharose. The protein exhibited a molecular weight of 38 kDa in SDS-polyacrylamide gel electrophoresis. It possessed an N-terminal amino acid sequence which showed similarity to those of miraculin (a sweet protein) and pisavin (a ribosome-inactivating protein from Pisum sativum var arvense Poir manifesting similarity to miraculin). Unlike pisavin, however, sativin demonstrated negligible ribonuclease activity and inhibited translation in a rabbit reticulocyte lysate system with a very low potency (IC50= 14 microM). Sativin exerted antifungal activity against Fusarium oxysporum, Coprinus comatus and Pleurotus ostreatus but not against Rhizoctonia solani.     

坚强芽孢杆菌β-淀粉酶基因的核苷酸序列分析

淀粉水解酶广泛用于淀粉加工业中,何秉旺等在选育产耐热β-淀粉酶菌株中得到一株坚强芽孢杆菌（Bacillusfirmus）725,该菌株产生的淀粉酶有较好的热稳定性,水解淀粉的主要产物为麦芽糖。自然菌株产生的淀粉酶往往是多种淀粉酶的混合,为进一步研究该菌株产生的淀粉酶的性质和在工业上应用的可能性,分离了三个淀粉酶基因,在大肠杆菌中克隆和表达[1]。其中重组质粒pBA150产生的淀粉酶的淀粉水解产物主要是麦芽糖［1］。β-淀粉酶（EC.3．2.1．2）水解淀粉的主要产物是麦芽糖,工业上可用于生产高麦芽糖浆,近年来又有β-淀粉酶用于啤酒工业的报道[2]。本文报道重组质粒pBA150的β-淀粉酶基因的序列分析及推导出的氨基酸序列同己知β-淀粉酶的氨基酸序列比较。     

Identification of an N-Terminal Region of Sigma 54 Required for Enhancer Responsiveness

Sigma 54 associates with bacterial core RNA polymerase and converts it into an enhancer-responsive enzyme. Deletion of the N-terminal 40 amino acids is known to result in loss of the ability to respond to enhancer binding proteins. In this work PCR mutagenesis and genetic screens were used to identify a small patch, from amino acids 33 to 37, that is required for proper response to activator in vivo. Site-directed single point mutants within this segment were constructed and studied. Two of these were defective in responding to the enhancer binding protein in vitro. The mutants could still direct the polymerase to bind to DNA and initiate transient melting. However, they failed in directing activator-dependent formation of a heparin-stable open complex. Thus, amino acid region 33 to 37 includes critical activation response determinants. This region overlaps the larger leucine patch negative-control region, suggesting that anti-inhibition and positive activation are closely coupled events.     

The Product of the Herpes Simplex Virus Type 1 UL25 Gene Is Required for Encapsidation but Not for Cleavage of Replicated Viral DNA

The herpes simplex virus type 1 (HSV-1) UL25 gene contains a 580-amino-acid open reading frame that codes for an essential protein. Previous studies have shown that the UL25 gene product is a virion component (M. A. Ali et al., Virology 216:278–283, 1996) involved in virus penetration and capsid assembly (C. Addison et al., Virology 138:246–259, 1984). In this study, we describe the isolation of a UL25 mutant (KUL25NS) that was constructed by insertion of an in-frame stop codon in the UL25 open reading frame and propagated on a complementing cell line. Although the mutant was capable of synthesis of viral DNA, it did not form plaques or produce infectious virus in noncomplementing cells. Antibodies specific for the UL25 protein were used to demonstrate that KUL25NS-infected Vero cells did not express the UL25 protein. Western immunoblotting showed that the UL25 protein was associated with purified, wild-type HSV A, B, and C capsids. Transmission electron microscopy indicated that the nucleus of Vero cells infected with KUL25NS contained large numbers of both A and B capsids but no C capsids. Analysis of infected cells by sucrose gradient sedimentation analysis confirmed that the ratio of A to B capsids was elevated in KUL25NS-infected Vero cells. Following restriction enzyme digestion, specific terminal fragments were observed in DNA isolated from KUL25NS-infected Vero cells, indicating that the UL25 gene was not required for cleavage of replicated viral DNA. The latter result was confirmed by pulsed-field gel electrophoresis (PFGE), which showed the presence of genome-size viral DNA in KUL25NS-infected Vero cells. DNase I treatment prior to PFGE demonstrated that monomeric HSV DNA was not packaged in the absence of the UL25 protein. Our results indicate that the product of the UL25 gene is required for packaging but not cleavage of replicated viral DNA.     

Metabolic Dysfunction in Familial, but Not Sporadic, Amyotrophic Lateral Sclerosis

Abstract: Autosomal dominant familial amyotrophic lateral sclerosis (FALS) is associated with mutations in the gene encoding Cu/Zn superoxide dismutase (SOD1). Previous studies have implicated the involvement of metabolic dysfunction in ALS pathogenesis. To further investigate the biochemical features of FALS and sporadic ALS (SALS), we examined SOD activity and mitochondrial oxidative phosphorylation enzyme activities in motor cortex (Brodmann area 4), parietal cortex (Brodmann area 40), and cerebellum from control subjects, FALS patients with and without known SOD mutations, SALS patients, and disease controls (Pick's disease, progressive supranuclear palsy, diffuse Lewy body disease). Cytosolic SOD activity, predominantly Cu/Zn SOD, was decreased ∼50% in all regions in FALS patients with SOD mutations but was not significantly altered in other patient groups. Marked increases in complex I and II–III activities were seen in FALS patients with SOD mutations but not in SALS patients. We also measured electron transport chain enzyme activities in a transgenic mouse model of FALS. Complex I activity was significantly increased in the forebrain of 60-day-old G93A transgenic mice overexpressing human mutant SOD1, relative to levels in transgenic wild-type animals, supporting the hypothesis that the motor neuron disorder associated with SOD1 mutations involves a defect in mitochondrial energy metabolism.