A new method for immobilizing microbial cells by crosslinking

A method for immobilization of microbial cells was developed designed. The method uses based on generation of reactive aldehyde groups on the cell wall surface under conditions of periodate oxidation. The linking of aldehyde groups by various bifunctional aromatic diamines and then by glutaraldehyde produced immobilized cells, which are promising for the use in biocatalysis with high-molecular-weight substrates of high molecular weight.     

An immunocytochemical method for histamine: application to the planarians

Histamine-immunoreactivity was investigated in the planarians Dugesia tigrina and Polycelis nigra. Specific antisera against a histamine-protein conjugate were used, and 1-ethyl—3 (3-dimethyl-aminopropyl) carbodiimide was used both as coupling agent to prepare the antigen and as a tissue fixative. In D. tigrina, histamine-immunoreactivity was restricted to photoreceptor cells in the cerebral eye. In P. nigra, nerve fibers were found in the ventral nerve cord and nerves running laterally from these. The epidermal eyes did not display histamine-immunoreactivity. The results suggest that histamine may be a transmitter in some of the most primitive animals. They also suggest that the distribution of histamine may differ in planarians.     

A new method for ethanol productivity determination

Summary A simple and easily applicable method for determination of the ethanol fermentation rate is described. The formulas to be used for the ethanol productivity calculation in the case of free and agar immobilized cells are given.     

A radiochemical method for determination of ethanol oxidation

A radiochemical method for the measurement of ethanol exidation by tissue preparations is described. Ethanol oxidation is determined from the production of [¹⁴C]acetaldehyde, quantified as the semicarbazone derivative, from [1-¹⁴C]ethanol. The assay is quantitative, reproducible and highly correlated with the NADH-enzymic-spectrophotometric procedure.     

Biological method for ethanol determination

It has been demonstrated that on an alkaline medium starving yeast Saccharomyces cerevisiae 14 oxidizes ethanol to acetate at a very high rate, consuming oxygen in stoichiometric ratios. This phenomenon can well be used for ethanol determination. This method is advantageous for its simplicity, cheapness and responsiveness.     

Photometric method for determining ethanol

A novel enzymatic photometric assay for ethanol determination using alcohol oxidase and peroxidase is described. The sensitivity of the method allows detecting ethanol in biological fluids (saliva and blood serum). Secondary alcohols and other organic compounds do not interfere with the assay. General-purpose spectrophotometers and photoelectric colorimeters can be used in the measurements. Methanol and propanol can also be determined by this technique.     

A Bruno-like gene is required for stem cell maintenance in planarians

The regenerative abilities of freshwater planarians are based on neoblasts, stem cells maintained throughout the animal's life. We show that a member of the Bruno-like family of RNA binding proteins is critical for regulating neoblasts in the planarian Schmidtea mediterranea. Smed-bruno-like (bruli) mRNA and protein are expressed in neoblasts and the central nervous system. Following bruli RNAi, which eliminates detectable Bruli protein, planarians initiate the proliferative response to amputation and form small blastemas but then undergo tissue regression and lysis. We characterize the neoblast population by using antibodies recognizing SMEDWI-1 and Histone H4 (monomethyl-K20) and cell-cycle markers to label subsets of neoblasts and their progeny. bruli knockdown results in a dramatic reduction/elimination of neoblasts. Our analyses indicate that neoblasts lacking Bruli can respond to wound stimuli and generate progeny that can form blastemas and differentiate; yet, they are unable to self-renew. These results suggest that Bruli is required for stem cell maintenance.     

Efficient conversion of sugarcane stalks into ethanol employing low temperature alkali pretreatment method

An alternative route for bio-ethanol production from sugarcane stalks (juice and bagasse) featuring a previously reported low temperature alkali pretreatment method was evaluated. Test-tube scale pretreatment-saccharification experiments were carried out to determine optimal LTA pretreatment conditions for sugarcane bagasse with regard to the efficiency of enzymatic hydrolysis of the cellulose. Free fermentable sugars and bagasse recovered from 2 kg of sugarcane stalks were jointly converted into ethanol via separate enzymatic hydrolysis and fermentation (SHF). Results showed that 98% of the cellulose present in the optimally pretreated bagasse was hydrolyzed into glucose after 72-h enzymatic saccharification using commercially available cellulase and β-glucosidase preparations at relatively low enzyme loading. The fermentable sugars in the mixture of the sugar juice and the bagasse hydrolysate were readily converted into 193.5 mL of ethanol by Saccharomyces cerevisiae within 12h, achieving 88% of the theoretical yield from the sugars and cellulose.     

A device for immobilizing small biological objects under light optical study

A device constructed on the base of a slide and a coverslip is proposed for immobilisation of small biological objects. The device permits performance of gradual and reversible squeezing of live micro-objects. Using the above device it is possible to watch one and the same living object, (for example, a ciliate) repeatedly within a prolonged period of time.     

High genetic susceptibility to ethanol withdrawal predicts low ethanol consumption

C57BL/6J (B6) inbred mice are well known to drink large amounts of alcohol (ethanol) voluntarily and to have only modest ethanol-induced withdrawal under fixed dose conditions. In contrast, DBA/2J (D2) mice are ``teetotallers' and exhibit severe ethanol withdrawal. Speculation that an inverse genetic relationship existed between these two traits was substantiated by meta-analysis of existing data collected in multiple genetic models, including large panels of standard and recombinant inbred strains, their crosses, and selectively bred mouse lines. Despite methodological differences among laboratories in measurement of both preference drinking and withdrawal, a nearly universal finding was that genotypes consuming large amounts of 10% ethanol (calculated as g/kg/day) during two-bottle choice preference drinking were genetically predisposed to low withdrawal scores in independent studies after either acute or chronic ethanol treatment. Conversely, low-drinking genotypes had higher withdrawal severity scores. The genetic relationship appears to be strongest in populations derived from B6 and D2, where data from more genotypes (BXD RIs, B6D2F₂s, BXD RI F₁s, and B6D2F₂-derived selectively bred lines) were available for analysis. Gene mapping studies in these populations identified four chromosome regions [on Chromosomes (Chrs) 1, 2, 4, and 15] where genes might potentially influence both traits. Among genotypes with greater genetic diversity (for example, a panel of standard inbred strains or selectively bred lines), the relationship was less pronounced. Thus, reduced susceptibility to the development of high alcohol use may be supported by increased genetic susceptibility to ethanol withdrawal symptoms. Received: 15 September 1998 / Accepted: 8 October 1998     

Simple blood‐feeding method for live imaging of gut tube remodeling in regenerating planarians

Live cell imaging is a powerful technique to study cellular dynamics in vivo during animal development and regeneration. However, few live imaging methods have been reported for studying planarian regeneration. Here, we developed a simple method for steady visualization of gut tube remodeling during regeneration of a living freshwater planarian, Dugesia japonica. When planarians were fed blood several times, gut branches were well‐visualized in living intact animals under normal bright‐field illumination. Interestingly, tail fragments derived from these colored planarians enabled successive observation of the processes of the formation of a single anterior gut branch in the prepharyngeal region from the preexisting two posterior gut branches in the same living animals during head regeneration. Furthermore, we combined this method and RNA interference (RNAi) and thereby showed that a D. japonica raf‐related gene (DjrafA) and mek‐related gene (DjmekA) we identified both play a major role in the activation of extracellular signal‐regulated kinase (ERK) signaling during planarian regeneration, as indicated by their RNAi‐induced defects on gut tube remodeling in a time‐saving initial screening using blood‐feeding without immunohistochemical detection of the gut. Thus, this blood‐feeding method is useful for live imaging of gut tube remodeling, and provides an advance for the field of regeneration study in planarians.     

A linearization method for low catalytic activity enzyme kinetic analysis

A kinetic analysis was made and a linear plot based on the general rate equation derived by Laidler [Can. J. Chem. 33, 1614-1624] is proposed. This linearization method allows determining the kinetic parameters (K(m), k(cat)) and [E](0) for enzymes with low catalytic activity. The method was applied to chloroperoxidase from Caldariomyces fumago [EC 1.11.1.10], whose kinetic parameters K(m)(app), k(cat)(app), and [E](0) with monochlorodimedone as substrate, were obtained by using the linearization plot and the V(max) value (calculated by Eadie-Hofstee plot). This plot could also be useful to the study of abenzyme kinetics provided the concentration of the latter is either higher or equal than K(m) value.     

Feather protein as a support for immobilizing enzymes

Feather meal protein was prepared in granular form and used as a support for lactase using glutaraldehyde as the crosslinking agent. The support gave a high retention of activity and in column operation it yielded apparent half-lives from 50 to 100 days. Because of its gel-like consistency (water content of about 90%), there is some diffusional restricting of activity as indicated by the kinetic data of soluble and immobilized enzymes.