Back Cover: Protein secondary structure analysis of dried blood serum using infrared spectroscopy to identify markers for colitis screening (J. Biophotonics 3/2018)

Protein secondary structural alteration in the serum sample as induced by colitis has been demonstrated via the spectral fitting. Using DSS mouse models of acute colitis and IL10‐/‐ for chronic colitis, a significant difference in the integral ratio of Gaussian energy bands representing α‐helix and β‐pleated sheet structures were obtained. Further details can be found in the article by Jitto Titus et al. ( e201700057 ).

     

Early primary succession on Mount St. Helens,Washington, USA

Abstract. The north slope of Mount St. Helens was sampled with 141 circular 100-m² plots to describe vegetation and environmental patterns 13 yr after the 1980 eruption. At least 114 vascular plant taxa were encountered. We recognized four habitat types: Refugia, Pumice barrens, Pyroclastic surfaces and Drainages. A fifth category, Lupine patches, includes samples on primary surfaces that were rapidly colonized. Refugia provided small enclaves where underground portions of several species survived the eruption. They retained an inconsistent array of forest understory species and contained 86 species (mean = 20.8 per plot). Refugia are dominated by woody species such as Penstemon cardwellii, Rubus spp., Ribes spp. and Alnus sinuata, with herbs such as Agrostis diegoensis, Luzula parviflora and Anaphalis margaritacea. Anaphalis represents a suite of species that invaded Refugia after the eruption. Diversity (N₂ and H′) is significantly greater in Refugia than in any other habitat. No plants survived on primary sites, which remain sparsely vegetated and dominated by readily dispersed taxa. Total richness ranges from 36 species (9.9 per plot) on pyroclastic surfaces, through 42 species (11.2 per plot) in drainages, to 66 (11.7 per plot) on Pumice barrens. H′ and N₂ of the three habitats do not differ significantly. Lupine-dominated vegetation occurs sporadically in Pyroclastic and drainage habitats. Lupine patches are characterized by high Lupinus cover and a suite of invaders. These sites have high cover and 52 species (12.6 per plot). H′ and N₂ scores were significantly lower than any other habitat due to strong lupine dominance. Canonical Correspondence Analysis showed that site history and slope contributed most to species composition. Geographic effects accounted for 10 25 % of the explained species-environment relationship. Forest understory species have migrated only short distances and have made negligible contributions to vegetation development. A few species common in Refugia, including Agrostis diegoensis and Carex mertensii, have invaded barren surfaces, but most have not. Refugia also have been invaded by open site species abundant on the Pumice Plain. The heterogeneity of plots within habitat types and small statistical linkage of vegetation to environmental and spatial factors suggests that stochastic events have played a leading role in early primary succession.     

The occurrence and nature of ornithine carbamoyltransferase in senescing apple leaf tissue

Ornithine carbamoyltransferase (EC 2.1.3.3) activity was detected in apple (Pyrus malus L.) leaf tissue from early June to November. Total activity remained relatively constant at 4.1 μmoles citrulline produced per hour per 10 cm² until mid-October when it sharply doubled. Following the first frost of the autumn, the enzyme lost about 80% of its former activity. The enzyme from apple leaf exhibited two pH optima, one at pH 8.6 and the other at pH 7.8, indicating the presence of isozymes or two forms of the enzyme. At pH 8.6, a partially-purified enzyme preparation had binding contrasts for its substrates of 6 mm for carbamyl-phosphate and 4.8 mm for ornithine. At pH 7.8, the Km for carbamyl-phosphate was 1.9 mm and the Km for ornithine was 1.22 mm.     

Specific lysis of human tumor cells by T cells coated with anti-T3 cross-linked to anti-tumor antibody

Heteroaggregates containing anti-T3 cross-linked to anti-target cell antibodies have been shown to cause human T cells to lyse target cells that express antigens recognized by the anti-target cell antibody. In this study, we test targeted human T cells for the ability to lyse human tumor cells as a first step toward the application of this phenomenon to tumor immunotherapy. Several monoclonal anti-human tumor antibodies were assayed for binding to a number of human tumor lines and for the ability to promote specific tumor cell lysis when cross-linked with anti-T3. We found that anti-T3 cross-linked to anti-tumor monoclonal antibodies caused cloned human T cells and fresh peripheral blood T cells to lyse the tumor cells with the same specificity as predicted by the binding studies. Peripheral blood T cells were then tested in the presence of various heteroaggregates for the ability to lyse single cell suspensions prepared from fresh tumor or fresh normal tissue. These studies showed that heteroaggregates containing anti-T3 cross-linked to anti-tumor antibody cause fresh human T cells to specifically lyse fresh tumor cells, but not (with one exception) fresh normal cells.     

Higher frequency of Leishmania major-specific L3T4+ T cells in susceptible BALB/c as compared with resistant CBA mice

In previous studies, we reported that a) the adoptive transfer of parasite-specific L3T4+ T cells enhanced rather than inhibited the development of lesions induced by Leishmania major in normal BALB/c mice, and b) the depletion in vivo of L3T4+ T cells by administration of anti-L3T4 monoclonal antibody reversed the susceptibility of BALB/c mice to L. major. To further assess the role of specific L3T4+ T cells in the development of lesions induced by L. major in BALB/c mice, the frequency of parasite-specific T cells capable of mediating specific delayed-type hypersensitivity (DTH) reactivity was determined, by limiting dilution analysis, in the lymph nodes draining the lesions of susceptible (BALB/c) and resistant (CBA) mice. The numbers of L. major-specific DTH-mediating T cells was found to be substantially increased in the lymph nodes of infected BALB/c mice as compared with CBA mice. Moreover in CBA mice, analysis of the cell surface phenotype of the L. major-specific DTH-mediating T cells showed that these cells were equally represented in the L3T4+, Lyt-2-, and L3T4- Lyt-2+ subsets, whereas the majority of these cells in BALB/c mice expressed the L3T4+ Lyt-2- surface phenotype.     

Structure of Methylosinus trichosporium exospores

Methylosinus trichosporium exospores did not display a well-defined cortex or an exosporium. A thick, electron-dense exospore wall was characteristic of the exospores. Located on the exterior of the exospore wall was a cell wall to which a well-defined capsule was attached. An extensive lamellar intracytoplasmic membrane system characteristic of the kind in vegetative cells of this bacterium was present along the interior periphery of the exospore wall. Upon germination of M. trichosporium exospores, the thick exospore wall gradually disappeared and a germ tube formed. The intracytoplasmic membranes of the exospores extended into the germ tube which did not possess the extensive fibrillar capsule observed on the dormant exospore. Cup-shaped exospores which have an ultrastructure similar to that of mature exospores except that they are invaginated also germinated upon exposure to methane.     

Regulation of Glyoxysomal Enzymes during Germination of Cucumber: 3. IN VITRO TRANSLATION AND CHARACTERIZATION OF FOUR GLYOXYSOMAL ENZYMES

Monospecific antibodies raised against four glyoxysomal enzymes (isocitrate lyase, catalase, malate synthase, and malate dehydrogenase) have been used to detect these proteins among the products of in vitro translation in a wheat germ system programmed with cotyledonary RNA from cucumber seedlings. In vitro immunoprecipitates were compared electrophoretically with the same enzymes labeled in vivo and also with the purified proteins. Isocitrate lyase yields two bands on sodium dodecyl sulfate-polyacrylamide gels, as synthesized both in vitro (61.5K and 60K products) and in vivo (63K and 61.5K polypeptides). Both the 63K and 61.5K subunits can also be demonstrated for the isolated enzyme. The two subunits are antigenically cross-reactive and yield similar electrophoretic profiles upon partial proteolytic digestion. A larger subunit is seen in vitro than in vivo for both malate dehydrogenase (38K versus 33K) and catalase (55K versus 54K); this suggests a need for processing which is often a characteristic of proteins that must be transported across or into membranes. Malate synthase has a molecular weight of 57K both in vitro and in vivo, but the isolated enzyme is a glycoprotein, containing N-acetyl glucosamine, mannose, and possibly also fucose and xylose. This indicates that the polypeptide portion of the isolated enzyme is smaller than the in vitro product and suggests processing of malate synthase also. None of the other three enzymes appears to be glycosylated. The implications of these size differences for the compartmentalization of matrix and membrane-bound glyoxysomal enzymes are discussed.     

Biochemical and Enzymatic Changes in Apple Leaf Tissue during Autumnal Senescence

The biochemical changes occurring during the natural senescence of apple leaf tissue (Pyrus malus L., Golden Delicious) coincided with specific changes in the environment. Protein, sugars, and total nitrogen began declining in leaf tissue when the daylength first became less than 14 hours in the second week of August. The activity of triose phosphate dehydrogenase declined shortly afterwards, while the activities of malate dehydrogenase, glutamic dehydrogenase, and aspartate aminotransaminase increased. Chlorophyll, DNA, RNA, and fresh weight began declining when the daylength first became less than 12 hours at the end of September. At the same time sugars and the activities of RNase, polyphenol oxidase, and proteolytic enzymes began increasing. Protein synthesis, total nitrogen, and the activities of malate dehydrogenase, glutamic dehydrogenase, and aspartate aminotransaminase began declining rapidly and amino acids began to accumulate after the first frost of the year. RNase, polyphenol oxidase, and proteolytic activity reached their highest specific activities after the first frost.     

Metabolism of alpha-Ketoglutarate by Roots of Woody Plants

The uptake and metabolism of α-ketoglutarate-5-¹⁴C by peach, apple, and privet root tissues were studied over various time intervals. As much as 80% of the absorbed ¹⁴C appeared as ¹⁴CO₂ in 320 minutes in peach roots. Apple and privet roots were less effective in this conversion with the bulk of the ¹⁴C found in the organic acid fraction. This indicates differences in organic acid metabolism among species of woody plants.

The ¹⁴C accumulated in malate earlier and in larger quantities than in citrate. Both glutamate and aspartate were labeled in 10 minutes and glutamate was labeled as early as 3 minutes. The labeling pattern does not clearly distinguish between the synthesis of glutamate by glutamic dehydrogenase or by transamination with oxaloacetate.

The rapid metabolism of α-ketoglutarate to glutamate by the 3 species studied indicates the presence of enzyme systems important in amino acid synthesis in the roots of woody plants.