Production of chitinases by Aphanocladium album grown on crystalline and colloidal chitin

Abstract The deuteromycete Aphanocladium album produced two endochitinases (EC 3.2.1.14) with apparent isoelectric points of 7.1 and 7.6 and seven exochitinases (EC 3.2.1.30) with apparent isoelectric points ranging from 3.8 to 6.4 when grown on a colloidal chitin preparation. With crystalline chitin as carbon source, two endochitinases (p I 7.1 and 7.6) and only one exochitanase (p I 4.9) were detected. The exochitinase p I 4.9, which was produced with both substrates, has a relative molecular mass of 44 000. The different chitinases could be separated by chromatofocusing and their specific activities were determined.     

关于黄曲条跳甲的寄主范围

通过非选择性试验方法,测定黄曲条跳甲Ｐｈｙｌｌｏｔｒｅｔａ ｓｔｒｉｏｌａｔａ（Ｆａｂｒｕｃｉｕｓ）在不同植物上的存活率,及番茄、茄子枝叶提取物对曲条跳甲的拒食作用结果表明,在供试的中,仅十字花科植物能使之正常存活,其他科的植物均全部或大量死亡,不可能作为黄曲条跳甲的寄主,甚至茄科的番茄、茄子提取物对黄曲条跳甲在显著的拒食作用,拒食率高达３０．９％和６０．５２％。从化学生态学的角度讨论了典曲条跳甲     

Evaluation of the antifungal activity of the purified chitinase 1 from the filamentous fungus Aphanocladium album

Abstract Crude protein preparations from the culture filtrate of the filamentous fungus Aphanocladium album , a hyperparasite of rust fungi, strongly inhibited growth of a strain of the fungus Nectria haematococca pathogenic on pea. Crude protein from the filtrate of the variant E3 of A. album , hyperproducing chitinase, was less inhibitory than crude protein from the filtrate of the wild-type strain E1. The antifungal potential of a purified chitinase from A. album , called chitinase 1, was compared to that of a plant chitinase with known antifungal activity, obtained from pea ( Pisum sativum ). Although purified chitinase 1 of A. album degraded chitin more completely than did pea chitinase, it did not inhibit growth of N. haematococca , either alone or in the presence of a pea β-1,3-glucanase. Furthermore, chitinase 1 from A. album failed to enhance the antifungal activity of pea chitinase. These results indicate that the extracellular proteins of A. album inhibit growth of some fungi by other means than through their chitinase 1 activity.     

Revised Host Range and Studies on the Life Cycle of Longidorus africanus

The host range of Longidorus africanus was demonstrated to be much wider than previously reported. All commercial crop plants tested, except two of four crucifers, were hosts of L. africanus. The nematode was widespread in fields, and soil type did not appear to be related to its distribution. The minimum time to complete a life cycle was 9 weeks at 28 C in a plant growth chamber. Field observations of population densities indicated, however, that in undisturbed field soils the life cycle required considerably less time than was indicated by growth chamber studies.     

Hyperparasitism of Aphanocladium album on Aecidiospores and Teliospores of Puccinia graminis f. sp. tritici

Aphanocladium album invaded rapidly 100% of aecidiospores of Puccinia graminis f. sp. tritici resulting in total collapse of the cells. Only 2% of teliospores were invaded. A. album penetrated through the germ pores. The precocious formation of teliospores which occurs immediately following uredial infection may be regarded as defence mechanism of the rust against its hyperparasite.     

Damage and recovery from UV-B exposure in conidia of the entomopathogens Verticillium lecanii and Aphanocladium album

We evaluated the effects of exposure to doses supplied at an environmentally realistic intensity of UV-B radiation (800 mW m(-2) weighted irradiance) on the culturability and germination of selected strains of the entomopathogenic Hyphomycetes Verticillium lecanii and Aphanocladium album. Increased UV-B exposure decreased relative percent culturability for all strains. Four hours of exposure to UV-B were sufficient to reduce the culturability close to zero. The LT(50) (50% lethal time) ranged from 120 ± 5 min for the V. lecanii strain ARSEF 6430 to 86 ± 14 min for the A. album strain ARSEF 6433. A strong delay in the germination of surviving conidia was observed. To determine the occurrence of photoreactivation in these two genera, we evaluated the effect of exposure to visible light after exposure to UV-B radiation. There was no significant difference in relative culturability between conidia exposed to visible light after UV-B exposure compared to those incubated in the dark after UV-B exposure. This indicates that photoreactivation, if it occurs, must have limited importance in the repair of the damage induced by UV-B radiation in these two genera.     

Studies on the Host Range of Xiphinema bakeri and Its Pathogenicity to Raspberry

Thirty-one kinds of plants representing 12 families were tested for host suitability to Xiphinema bakeri. Sixteen supported a significant population increase but only members of the Rosaceae and Solanaceae were severely damaged. Eight of the 12 weed species tested were good hosts; Mouse-ear chickweed allowed the greatest population increase of all plants tested. Populations of X. bakeri declined under selected members of the Cruciferae and Cucurbitaceae more than in fallow soil after 12 weeks. Numbers of X. bakeri as low as one per 5 cc of soil reduced root and top growth of raspberry 40-50%. Where 100 and 500 nematodes per 10.5 cm-diameter pot were used the mean weight of roots was reduced 54% and 77%, the tops 59% and 78% and the linear growth 48% and 78%, respectively. This is the first report of an ectoparasitic nematode pathogenic to raspberry.     

Host Range and Interference Studies of Three Classes of Pig Endogenous Retrovirus

Recent interest in the use of porcine organs, tissues, and cells for xenotransplantation to humans has highlighted the need to characterize the properties of pig endogenous retroviruses (PERVs). Analysis of a variety of pig cells allowed us to isolate and identify three classes of infectious type C endogenous retrovirus (PERV-A, PERV-B, and PERV-C) which have distinct env genes but have highly homologous sequences in the rest of the genome. To study the properties of these env genes, expression plasmids for the three env genes were constructed and used to generate retrovirus vectors bearing corresponding Env proteins. Host range analyses by the vector transduction assay showed that PERV-A and PERV-B Envs have wider host ranges, including several human cell lines, compared with PERV-C Env, which infected only two pig cell lines and one human cell line. All PERVs could infect pig cells, indicating that the PERVs have a potential to replicate in pig transplants in immunosuppressed patients. Receptors for PERV-A and PERV-B were present on cells of some other species, including mink, rat, mouse, and dog, suggesting that such species may provide useful model systems to study infection and pathogenicity of PERV. In contrast, no vector transduction was observed on nonhuman primate cell lines, casting doubt on the utility of nonhuman primates as models for PERV zoonosis. Interference studies showed that the three PERV strains use receptors distinct from each other and from a number of other type C mammalian retroviruses.Pig-to-human xenotransplantation has the potential to alleviate the shortage of allogeneic organs for transplantation (1, 25). In addition, it may also allow the development of novel therapies by providing unlimited supplies of cells and tissues (9, 11, 13, 18). Recently, substantial progress has been made in overcoming immunological barriers to cross-species transplantation (25, 27). At the same time, however, serious concerns that zoonotic infections might occur as a result of xenotransplantation have been expressed (1, 6, 30). Our report that an established pig cell line produces a porcine endogenous retrovirus (PERV) that can infect human cells fueled these concerns (23). Subsequently, the isolation of human tropic PERV from stimulated miniswine peripheral blood lymphocytes (38) has shown that normal pig cells can also produce potentially hazardous virus. PERVs may be difficult to eliminate from donor animals because multiple copies of PERV genomes are present in normal pig genomes (2, 16, 23). PERV infection may have serious impact on the health of not only transplant recipients but also the human population at large, if spread of an undetected infectious agent into the community were to take place (3, 31). To assess the risk posed by the PERVs for pig-to-human transplantation, a greater understanding of the properties of the PERVs is required.Sequence analyses indicate that the infectious PERVs are closely related to one another in their gag and pol genes, with maximum amino acid divergence of around 5% (2, 16a, 23). The PERVs are members of the mammalian type C retrovirus genus showing closest homology to the gibbon ape leukemia virus (GALV) pol gene, with about 70% amino acid identity, and 60 to 70% identity to murine leukemia viruses (MLV). However, three distinct env genes have now been identified in PERV clones. Two of these env genes, PERV-A and PERV-B, were cloned from human 293 cells infected with PK15 virus (16). The third distinct class of PERV env gene, here designated PERV-C, was reported as a part of a full-length PERV genome isolated from miniature swine lymphocytes (PERV-MSL) and from a swine lymphoma (PERV-Tsukuba-1) (2, 32). The three types show marked differences in the VRA, VRB, and PRO regions of SU surface glycoprotein (2, 16). Differences in these regions determine the host range specificity of the different classes of MLV (4, 5). These observations suggest that the PERVs belong to three distinct classes with different host range specificities. To test this idea, the functions of the three types of PERV env gene were examined and correlated to production, infection, and replication of PERVs in cell culture. Recombinant retrovirus vectors bearing PERV Env proteins were developed and their host ranges, cell tropism, and interference with each other as well as with other type C retroviruses were examined. The results of these experiments are the subject of this report.     

Studies on the Host Range,Biology, and Pathogenicity of Punctodera punctata Infecting Turfgrasses

Punctodera punctata completed its life cycle on Poa annua (annual bluegrass), P. pratensis (Merion Kentucky bluegrass), Lolium perenne (perennial ryegrass), and Festuca rubra rubra (spreading fescue). Minimum time for completion of a life cycle from second-stage juvenile to mature brown cyst was 40 days at 22-28 C. Inoculation by single juveniles indicated that reproduction was most likely by amphimixis. Infestation levels of 50 or 500 juveniles/250 cm³ soil did not affect top dry weight, root dry weight, or total dry weight of Poa annua.     

Histopathology and Host Range Studies of the Redwood Nematode Rhizonema sequoiae

Second-stage larvae of Rehizonma sequoiae Cid del Prado Vera et al. tunnel through the cortex of the redwood Sequoia sempervirens (D. Don) Endl. root to the vascular tissue where each developing female induces a single ovoid or occasionally spherical giant cell with a single ovoid to spherical nucleus containing one to four enlarged nucleoli. Nematode tunnels are filled with a gel material and often contain second-stage larvae and males. There is tissue necrosis around females, and cortical tissue is destroyed after infection by many second-stage larvae. R. sequoiae females developed to maturity on S. sempervirens, Acer macrophyllum Pursh, AInus rhombifolia Nutt., Libocedrus decurrens Torr, Pseudotsuga menziesii (Mirb.) Franco, and Sequoiadendron giganteum (Lindl.) Decne. In the Marin County, California, forest mature females were also found naturally infecting Lithocarpus densiflorus (Hook &Arn.) Rehd., Umbellularia californica (Hook &Arn.) Nutt., and Arbutus menziesii Pursh.     

Studies on chemical composition ofChenopodium album L.

Summary Field studies conducted at the Haryana Agricultural University, Hissar, India for two years revealed thatChenopodium album L. contained very high degree of nitrogen, phosphorus, potassium, calcium, magnesium, iron and manganese. Its nutrient content declined with advancement in age of the plant.     

Primary structure of a chitinase-encoding gene (chi1) from the filamentous fungus Aphanocladium album: similarity to bacterial chitinases.

Chitinase 1 (Chil) is the major extracellular chitinase from the hyperparasitic fungus, Aphanocladium album. We determined the complete sequence of the chromosomal and cDNA copies of the structural gene (chi1) coding for Chil. The coding region is interrupted by three short introns (55, 53 and 49 bp long). Chil is 423 aa long and begins with a stretch of 34 aa not found in the mature protein. The Chil sequence presents overall similarities with bacterial chitinases from Serratia marcescens and Bacillus circulans. Compared with other chitinases, A. album Chi1 has only two short similarity regions (12 and 8 aa long), which are also found in bacterial, yeast and some plant chitinases.     

Extended Host Range of Agrobacterium tumefaciens in the Genus Pinus

Two-to 4-month-old seedlings of nine pine species (Pinus eldarica Medw., Pinus elliottii Engelm., Pinus jeffreyi Grev. & Balf., Pinus lambertiana Dougl., Pinus ponderosa Laws., Pinus radiata D. Don, Pinus sylvestris L., Pinus taeda L., Pinus virginiana Mill), Douglas fir (Pseudotsuaa menziesii (Mirb.) Franco) and incense cedar (Libocedrus decurrens Torr.) were inoculated with five strains of Agrobacterium tumefaciens. Transformation occurred in all conifer species tested as determined by gall formation and opine production. The frequency of gall formation varied by host species, by bacterial strain, and was related to the age of the stem when inoculated. Galls were visible 8 to 12 weeks after inoculation and were small (often less than 2.5 millimeters in diameter). Fewer than half (230 of 502) of the galls originally formed on the trees were present after 1 year, and 26 of these grew to diameters greater than 2 centimeters. The majority of these larger galls (18 of 26) were found in P. radiata. Bacterial strain-specific opines were found in 67 of the 81 gall tissues sampled.     

Characterization of Streptococcus thermophilus Host Range Phage Mutants

To investigate phage-host interactions in Streptococcus thermophilus, a phage-resistant derivative (SMQ-301R) was obtained by challenging a Tn917 library of phage-sensitive strain S. thermophilus SMQ-301 with virulent phage DT1. Mutants of phages DT1 and MD2 capable of infecting SMQ-301 and SMQ-301R were isolated at a frequency of 10⁻⁶. Four host range phage mutants were analyzed further and compared to the two wild-type phages. Altogether, three genes (orf15, orf17, and orf18) contained point mutations leading to amino acid substitutions and were responsible for the expanded host range. These three proteins were also identified in both phages by N-terminal sequencing and/or matrix-assisted laser desorption ionization-time-of-flight mass spectrometry. The results suggest that at least three phage structural proteins may be involved in phage-host interactions in S. thermophilus.