The legacy of bio-molecules as a bio-fertilizer: Context of single cell fertilizer Isolation and partial characterization of an amylolytic bacterium

Repeated cultivation of crop plants is the reason for the depletion of nutrients in an agricultural land. Therefore, modern procedures of agriculture cascaded with the addition of organic and inorganic fertilizers, the use of insecticides and pesticides, the addition of proper water, etc. Various inorganic molecules are used as fertilizers. However, the use of organic manures is also in practice. They have many roles such as improving soil porosity, air holding capacity, water holding capacity, structure, texture, etc. Agricultural scientists suggest using organic molecules for many reasons. Bio-fertilizers of many kinds are used by farmers of all nations. However, these fertilizers are unable to cause tremendous effects on the growth and development of crop plants, even though these fertilizers have cumulative effects. The present work focuses on the use of bio-molecules as bio-fertilizer. To make these molecules, an amylolytic bacterium was isolated and partially identified based on microscopic observations and biochemical tests. The optimum pH, temperature, substrate concentration, etc. were studied. The optimum pH and temperature for the growth of the isolate were pH 7.0 and 37.0°C, respectively. However, the organism grows even in 60.0°C. The organism uses four commonly available natural substrates as carbon source. Among these, potato starch is the most conveniently utilized by the organism. The amy gene of the strain was cloned using a vector. It expressed a high amount of amylase (data is not shown). The recombinant organism was used to make bio-molecules. It was grown in the presence of various natural substrates and enzymatic activities, and other associated studies were also carried out. The experimental results obtained in this study showed that the recombinant organism can be utilized to make a huge amount of bio-molecules. It will be a unique fertilizer for future generations

Single cell fertilizer (SCF): Evidence to prove that bio-molecules are potent nutrient for plant growth

Fertilizers of various kinds are used for the cultivation of crop plants for hyper production of plant based food materials. The study used bio-molecules made in a bacterial cell. The experimental results showed tremendous effect on plant growth. These cellular molecules were made by treating the bacterial cells with lysozyme and protenase K. The wet/weight was increased in multiple folds compared to that of control sets. The fold of increase was 4.79 for rice, 2.77 for wheat, 1.89 for gram and 1.89 for pea when bacterial cellular molecules were used as fertilizer

DNA polymerases from a parasitic protozoa Leishmania donovani UR6: evidence of presence of a novel kind of DNA polymerase

DNA polymerases of Leishmania donovani have been isolated and purified. The cell extract has been chromatographed on a phosphocellulose column that separated into three peaks. The activity peak1was further purified to homogeneity. The DNA polymerase is a 64 KDa polypeptide, resistant to N-ethylmaleimide and aphidicolin. It requires MnCl<SUB>2</SUB> and a high concentration of KCl (0.5 M) for maximal activity. It has both 3' to 5' and 5' to 3' exonuclease activities that reside in the same polypeptide

Telomere, telomerase, tumorigenesis and therapy: An overview

839-842The ends of chromosome in higher eukaryote are termed telomere. The DNAs present at that part of chromosome is called telomeric DNA. Telomeric DNA consists of tandemly repeated DNA sequences. The replication of the ends of chromosomes is not controlled by conventional DNA polymerases rather a special kind of enzyme is involved in this process. It is a ribonucleoprotein and known as telomerase. Cells in senescence stage face telomeric crisis that leads to loss of telomeric ends. Surveillance turns to procancer cells with increased telomerase activity which is a later consequence. Based on these facts a key di agnostic approach has been developed for detection of tumour. A novel therapy for tumour repression has been developed using telomerase inhibitors.However, these inhibitors are very much effective for solid tumour therapy and conceptually will not work on hematological malignancies