A copy of exon 3-intron 3 from the barley aleurain gene is present on chromosome 2

A genomic clone fromHordeum vulgare L. cv. Himalaya contains 700 bp of DNA that is homologous with a high degree of nucleotide sequence similarity to exon 3-intron 3 from the gene for the thiol protease, aleurain. Genomic Southern blot mapping data indicate that this clone in phage had not undergone rearrangement, and no other sequences homologous to aleurain are present on it. Although exon 3 in aleurain encodes the polypeptide region cleaved during proteolytic processing of the proenzyme to its mature form, we do not know if the copy is expressed in some other protein. We have mapped the aleurain gene to chromosome 1, and this copy of exon 3-intron 3 to chromosome 2.     

Streptococcus pneumoniae IgA1 protease: A metalloprotease that can catalyze in a split manner in vitro

IgA1 proteases (IgA1P) from diverse pathogenic bacteria specifically cleave human immunoglobulin A1 (IgA1) at the hinge region, thereby thwarting protective host immune responses. Streptococcus pneumoniae (S. pneumoniae) IgA1P shares no sequence conservation with serine or cysteine types of IgA1Ps or other known proteins, other than a conserved HExxH Zn‐binding motif (1604‐1608) found in metalloproteases. We have developed a novel expression system to produce the mature S. pneumoniae IgA1P and we have discovered that this form is both attached to the bacterial cell surface and released in its full form. Our data demonstrate that the S. pneumoniae IgA1P comprises two distinct regions that associate to form an active metalloprotease, the first such example of a metalloprotease that can be split in vitro and recombined to form an active enzyme. By capitalizing on this novel domain architecture, we show that the N‐terminal region of S. pneumoniae IgA1P comprises the primary binding region for IgA1, although the C‐terminal region of S. pneumoniae IgA1P is necessary for cleavage of IgA1. Our findings lend insight into the protein domain architecture of the S. pneumoniae IgA1P and function of this important virulence factor for S. pneumoniae infection.     

泛素特异性蛋白酶15稳定着色性干皮病F蛋白并促进DNA链间交联损伤修复

着色性干皮病F蛋白 (xeroderma pigmentosum group F, XPF) 和切除修复交叉互补组1蛋白 (excision repair cross complementing group 1, ERCC1) 组成一种结构特异性的核酸内切酶 (XPF-ERCC1)复合物,参与DNA链间交联 (interstrand crosslink, ICL) 损伤修复。其中,XPF蛋白的去泛素化修饰对DNA损伤修复的影响尚未见报道。本工作主要研究泛素特异性蛋白酶15 (ubiquitin-specific protease 15, USP15) 对XPF的稳定性及ICL修复的影响。本研究通过蛋白质质谱和Western印迹法分析发现,XPF蛋白与USP15存在相互作用,进而使XPF蛋白去泛素化修饰;采用CRISPR-Cas9技术构建USP15基因敲除的HeLa细胞株 (USP15 KO) 并进行Western印迹分析,结果显示,敲除组XPF蛋白水平低于对照组 (P<0.001)。克隆形成试验显示,在ICL诱导剂顺铂 (cisplatin,DDP) 和丝裂霉素C (mitomycin, MMC) 的作用下,USP15基因敲除的HeLa细胞增殖能力显著降低 (P<0.01)。本研究表明,去泛素化酶USP15是一种重要的DNA修复调节因子,该酶通过稳定XPF蛋白促进由XPF-ERCC1介导的ICL修复。本研究为改善ICL诱导剂类抗癌药物的耐药性提供了理论依据,并为肿瘤的治疗提供了潜在的新靶点。     

Exploration of the effects of sequence variations between HIV-1 and HIV-2 proteases on their three-dimensional structures

Abstract

HIV protease inhibitors (PIs) approved by the FDA (US Food and Drug Administration) are a major class of antiretroviral. HIV-2 protease (PR2) is naturally resistant to most of them as PIs were designed for HIV-1 protease (PR1). In this study, we explored the impact of amino-acid substitutions between PR1 and PR2 on the structure of protease (PR) by comparing the structural variability of 13 regions using 24 PR1 and PR2 structures complexed with diverse ligands. Our analyses confirmed structural rigidity of the catalytic region and highlighted the important role of three regions in the conservation of the catalytic region conformation. Surprisingly, we showed that the flap region, corresponding to a flexible region, exhibits similar conformations in PR1 and PR2. Furthermore, we identified regions exhibiting different conformations in PR1 and PR2, which could be explained by the intrinsic flexibility of these regions, by crystal packing, or by PR1 and PR2 substitutions. Some substitutions induce structural changes in the R2 and R4 regions that could have an impact on the properties of PI-binding site and could thus modify PI binding mode. Substitutions involved in structural changes in the elbow region could alter the flexibility of the PR2 flap regions relative to PR1, and thus play a role in the transition from the semi-open form to the closed form, and have an impact on ligand binding. These results improve the understanding of the impact of sequence variations between PR1 and PR2 on the natural resistance of HIV-2 to commercially available PIs.

Communicated by Ramaswamy H. Sarma     

Atlantic Cod Trypsin Y—Member of a Novel Trypsin Group

A unique trypsinogen complementary DNA has been isolated from an Atlantic cod (Gadus morhua) cDNA library. Its predicted amino acid sequence contains 249 residues with a putative polypeptide of 227 residues. The distinctive features of this polypeptide, referred to as trypsin Y, are its low number of hydrogen-bond-forming residues, high content of Met and Pro residues, and lack of one conserved disulfide bond. Alignments show that cod trypsinogen Y has only approximately 45% identity to the two Atlantic cod trypsinogens I and X and most vertebrate trypsinogens. However, it has more than 70% identity to three other fish trypsinogens from two Pleuronectes and an Antarctic Notothenia species. These four trypsinogens share some unique characteristics and form a novel group, here referred to as group III. Received April 26, 1999; accepted June 29, 1999     

Identification of homologues to the pathogenicity factor Pat-1, a putative serine protease of Clavibacter michiganensis subsp. michiganensis

Hybridization of Clavibacter michiganensis subsp. michiganensis total DNA against the pathogenicity gene pat-1 indicated the presence of pat-1 homologous nucleotide sequences on the chromosome and on plasmid pCM2. Isolation of the corresponding DNA fragments and nucleotide sequence determination showed that there are three pat-1 homologous genes: chpA (chromosome) and phpA and phpB (plasmid pCM2). The gene products share common characteristics, i.e. a signal sequence for Sec-dependent secretion, a serine protease motif, and six cysteine residues at conserved positions. Gene chpA located on the chromosome is a pseudogene since it contains a translational stop codon after 97 of 280 amino acids. In contrast to pat-1, cloning of the plasmid encoded homologs phpA and phpB into the avirulent plasmid free Cmm strain CMM100 did not result in a virulent phenotype. So far no proteolytic activity could be demonstrated for Pat-1, however, site specific mutagenesis of pat-1 showed that the serine residue in the motif GDSGG is required for the virulent phenotype of pat-1 and thus Pat-1 could be a functional protease.     

Cryo-EM structure of hexameric yeast Lon protease (PIM1) highlights the importance of conserved structural elements

Lon protease is a conserved ATP-dependent serine protease composed of an AAA+ domain that mechanically unfolds substrates and a serine protease domain that degrades these unfolded substrates. In yeast, dysregulation of Lon protease (PIM1) attenuates lifespan and leads to gross mitochondrial morphological perturbations. Although structures of the bacterial and human Lon protease reveal a hexameric assembly, yeast PIM1 was speculated to form a heptameric assembly and is uniquely characterized by a ∼50-residue insertion between the ATPase and protease domains. To further understand the yeast-specific properties of PIM1, we determined a high-resolution cryo-electron microscopy structure of PIM1 in a substrate-translocating state. Here, we reveal that PIM1 forms a hexamer, conserved with that of bacterial and human Lon proteases, wherein the ATPase domains form a canonical closed spiral that enables pore loop residues to translocate substrates to the protease chamber. In the substrate-translocating state, PIM1 protease domains form a planar protease chamber in an active conformation and are uniquely characterized by a ∼15-residue C-terminal extension. These additional C-terminal residues form an α-helix located along the base of the protease domain. Finally, we did not observe density for the yeast-specific insertion between the ATPase and protease domains, likely due to high conformational flexibility. Biochemical studies to investigate the insertion using constructs that truncated or replaced the insertion with a glycine-serine linker suggest that the yeast-specific insertion is dispensable for PIM1’s enzymatic function. Altogether, our structural and biochemical studies highlight unique components of PIM1 machinery and demonstrate evolutionary conservation of Lon protease function.     

Purification of HIV-1 wild-type protease and characterization of proteolytically inactive HIV-1 protease mutants by pepstatin A affinity chromatography

Recombinant wild-type protease of human immunodeficiency virus, type [(HIV-1) expressed in E. coli was purified by pepstatin A affinity chromatography. An 88-fold purification was achieved giving a protease preparation with a specific enzymatic activity of approximately 3700 pmol/min/μg. Two proteolytically inactive HIV-1 mutant proteases (Arg-87 → Lys; Asn-88 → Glu) were found to bind to pepstatin A agarose, and they were purified as the wild-type protease. A third mutant protease (Arg-87 → Glu) was apparently unable to bind to pepstatin A under similar conditions. Binding to pepstatin A indicates the binding ability of the substrate binding site and the ability to form dimers. These features may be used to purify and to characterize other mutated HIV-1 proteases.     

白腐真菌总DNA提取方法的研究

白腐真菌的巨大而广谱的生物降解能力使其在“三废”治理和环境修复中具有良好的应用前景。为寻求一种简便有效的白腐真菌总DNA的提取方法,在实验中分别采用蜗牛酶法、CTAB法、SDS法和蛋白酶K法进行操作,且对提取的DNA进行紫外吸收光谱和琼脂糖凝胶电泳（AGE）检测。通过对提取的总DNA浓度、纯度、实验操作过程以及试验成本等方面的比较与分析,得出蜗牛酶法是白腐真菌总DNA提取的理想方法。     

Purification and characterization of an alkaline protease from Pseudomonas aeruginosa MN1

An alkaline protease produced by Pseudomonas aeruginosa MN1, isolated from an alkaline tannery waste water, was purified and characterized. The enzyme was purified 25-fold by gel filtration and ion exchange chromatography to a specific activity of 82350 U mg⁻¹. The molecular weight of the enzyme was estimated to be 32000 daltons. The optimum pH and temperature for the proteolytic activity were pH 8.00 and 60°C, respectively. Enzyme activity was inhibited by EDTA suggesting that the preparation contains a metalloprotease. Enzyme activity was strongly inhibited by Zn²⁺, Cu²⁺ and Hg²⁺(5 mM), while Ca²⁺ and Mn²⁺ resulted in partial inhibition. The enzyme is different from other Pseudomonas aeruginosa alkaline proteases in its stability at high temperature; it retained more than 90% and 66% of the initial activity after 15 and 120 min incubation at 60°C. Journal of Industrial Microbiology & Biotechnology (2000) 24, 291–295. Received 09 June 1999/ Accepted in revised form 24 January 2000     

A family of serine protease genes expressed in adult buffalo fly (Haematobia irritans exigua)

Gene fragments encoding serine proteases expressed in adult buffalo fly (Haematobia irritans exigua) were amplified from cDNA using generic oligonucleotide PCR primers, based on conserved residues surrounding the active-site His and Ser amino acids found in all serine proteases. The PCR product consisted of a broad band extending from about 450 by to 520 bp, which suggested that the PCR product actually consisted of numerous DNA fragments of slightly variable sizes. Seventeen independent clones of these fragments, each with an insert of approximately 480 bp, were digested with HaeIII. Comparison of restriction fragment patterns indicated that 13 of these clones harboured different PCR products. This was confirmed by DNA sequence analysis of 9 clones. Each of the sequenced clones contained an open reading frame which included structurally conserved regions characteristic of the serine protease superfamily. This study reveals the expression of a large and highly variable repertoire of serine proteases in adult buffalo fly. Importantly, these data also demonstrate the utility of such an approach in obtaining DNA probes for use in further investigations of gene family organization and expression, as well as providing recombinant antigens in the form of fusion proteins which may be used as candidates for vaccine production.     

Crystal structure of polymerization-competent actin

All actin crystal structures reported to date represent actin complexed or chemically modified with molecules that prevent its polymerization. Actin cleaved with ECP32 protease at a single site between Gly42 and Val43 is virtually non-polymerizable in the Ca-ATP bound form but remains polymerization-competent in the Mg-bound form. Here, a crystal structure of the true uncomplexed ECP32-cleaved actin (ECP-actin) solved to 1.9 A resolution is reported. In contrast to the much more open conformation of the ECP-actin's nucleotide binding cleft in solution, the crystal structure of uncomplexed ECP-actin contains actin in a typical closed conformation similar to the complexed actin structures. This unambiguously demonstrates that the overall structure of monomeric actin is not significantly affected by a multitude of actin-binding proteins and toxins. The invariance of actin crystal structures suggests that the salt and precipitants necessary for crystallization stabilize actin in only one of its possible conformations. The asymmetric unit cell contains a new type of antiparallel actin dimer that may correspond to the "lower dimer" implicated in F-actin nucleation and branching. In addition, symmetry-related actin-actin contacts form a head to tail dimer that is strikingly similar to the longitudinal dimer predicted by the Holmes F-actin model, including a rotation of the monomers relative to each other not observed previously in actin crystal structures.     

Purification and characterization of hevain,a serine protease from Hevea brasiliensis

A serine protease of MW 69000 has been isolated, in homogeneous form, from the latex of Hevea brasiliensis. The enzyme, named hevain, has only limited esterolytic and proteolytic abilities, a maximum activity in the pH range 6.5–7.5, and a pI of 4.3. Hevain has a notably high content of acidic amino acids, while the aromatic residues are present in relatively minor amounts.     

NETosis occurs independently of neutrophil serine proteases

Neutrophils are primary host innate immune cells defending against pathogens. One proposed mechanism by which neutrophils prevent the spread of pathogens is NETosis, the extrusion of cellular DNA resulting in neutrophil extracellular traps (NETs). The protease neutrophil elastase (NE) has been implicated in the formation of NETs through proteolysis of nuclear proteins leading to chromatin decondensation. In addition to NE, neutrophils contain three other serine proteases that could compensate if the activity of NE was neutralized. However, whether they do play such a role is unknown. Thus, we deployed recently described specific inhibitors against all four of the neutrophil serine proteases (NSPs). Using specific antibodies to the NSPs along with our labeled inhibitors, we show that catalytic activity of these enzymes is not required for the formation of NETs. Moreover, the NSPs that decorate NETs are in an inactive conformation and thus cannot participate in further catalytic events. These results indicate that NSPs play no role in either NETosis or arming NETs with proteolytic activity.     

Virulence of alkaline protease-deficient mutants of Aspergillus fumigatus

Abstract The gene encoding the secreted alkaline protease, a suspected virulence factor of Aspergillus fumigatus , was inactivated by gene disruption. The disruption was performed by transformation of a pathogenic strain of the fungus with a linear DNA fragment carrying the gene from which the central part was replaced by the selectable Escherichia coli hygromycin B dominant resistance marker. Two transformants were shown to produce no alkaline protease. Restriction fragment analysis of the DNA of these two transformants was consistent for chromosomal integration of the disrupted gene by homologous recombination. Both isogenic alkaline protease-producing and non-producing A. fumigatus strains invaded lung tissues, causing comparable mortality in immunosuppressed mice. A significant residual proteolytic activity observed in alkaline protease non-producing strain cultures could play a role in the invasion of the tissues by the fungus.     

Co-existence of clpB and clpC in the Bacillaceae

The gene encoding ClpC in Bacillus anthracis was amplified from the chromosome by polymerase chain reaction using degenerate oligonucleotide primers. These primers also amplified a second DNA fragment identified as a clpB homolog. Both genes were suggested to be functional. Contrary to Bacillus subtilis which possesses clpC but not clpB, many Bacillus species were found to harbor both clpC and clpB. We also found that Clostridium strains could possess clpB, clpC, or both. All the Gram-negative strains tested had clpB only.     

Prophenoloxidase activation in the hemolymph of Sarcophaga bullata larvae

Phenoloxidase in the hemolymph of Sarcophaga bullata larvae is present as an inactive proenzyme form. Localization studies indicate that the majority of the prophenoloxidase is present in the plasma fraction whereas only a minor fraction (about 4%) is present in the cellular compartments (hemocytes). Inactive prophenoloxidase can be activated by zymosan, not by either endotoxin or laminarin. This activation process is inhibited by the serine protease inhibitors, benzamidine and p-nitrophenyl-p～-guanidobenzoate. Exogenously added proteases, such as chymotrypsin and subtilisin, also activated the prophenoloxidase in the whole hemolymph but failed to activate the partially purified proenzyme. However, an activating enzyme isolated from the larval cuticle, which exhibits trypsinlike specificity, activated the partially purified prophenoloxidase. Inhibition studies and activity measurements also revealed the presence of a similar activating enzyme in the hemolymph. Thus, the phenoloxidase system in Sarcophaga bullata larval hemolymph seems to be comprised of a cascade of reactions. An endogenous protease inhibitor isolated from the larvae inhibited chymotrypsin-mediated prophenoloxidase activation but failed to inhibit the cuticular activating enzyme-catalyzed activation. Based on these studies, the roles of prophenoloxidase, endogenous activating proteases, and protease inhibitor in insect immunity are discussed.