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Synthesis Activity (synthesis + activity)

Distribution by Scientific Domains
Life Sciences100%

Selected Abstracts

Starch Synthesis and Programmed Cell Death during Endosperm Development in Triticale (×Triticosecale Wittmack)

JOURNAL OF INTEGRATIVE PLANT BIOLOGY, Issue 7 2010
Chun-Yan Li
Triticale (×Triticosecale Wittmack) grains synthesize and accumulate starch as their main energy source. Starch accumulation rate and synthesis activities of ADP-glucose pyrophosphorylase, soluble starch synthases, granule-bound starch synthase and starch-branching enzyme showed similar pattern of unimodal curves during endosperm development. There was no significant difference in activity of the starch granule-bound protein isolated from total and separated starch granules at different developmental stages after anthesis in triticale. Evans Blue staining and analysis of DNA fragmentation indicated that cells of triticale endosperm undergo programmed cell death during its development. Dead cells within the endosperm were detected at 6 d post anthesis (DPA), and evidence of DNA fragmentation was first observed at 21 DPA. The period between initial detection of PCD to its rapid increase overlapped with the key stages of rapid starch accumulation during endosperm development. Cell death occurred stochastically throughout the whole endosperm, meanwhile, the activities of starch biosynthetic enzymes and the starch accumulation rate decreased in the late stages of grain filling. These results suggested that the timing and progression of PCD in triticale endosperm may interfere with starch synthesis and accumulation. [source]

Human Werner helicase interacting protein 1 (WRNIP1) functions as a novel modulator for DNA polymerase ,

GENES TO CELLS, Issue 1 2005
Toshiki Tsurimoto
Human WRNIP1, a Werner DNA helicase interacting protein 1, was expressed in insect cells and E. coli. The purified protein behaved as a homo-oligomeric complex with a native molecular mass indicative of an octamer, and the complex copurified with an ATPase activity that was stimulated by double-stranded DNA ends. As suggested by genetic studies of budding yeast WRNIP1/Mgs1, the purified human WRNIP1 complex interacted physically with human DNA polymerase , (pol ,), stimulating its DNA synthesis activity more than fivefold in the presence or absence of proliferating cell nuclear antigen. Analysis of reaction products demonstrated the stimulation to be partly due to an increased processivity of pol , but more importantly to an increase in its initiation frequency. Addition of ATP to reactions partially suppressed stimulation by WRNIP1. Furthermore, a mutant WRNIP1 lacking ATPase activity could stimulate pol , normally but was insensitive to suppression by ATP. These results indicate that WRNIP1 functions as a modulator for initiation or restart events during pol ,-mediated DNA synthesis and that its ATPase activity is utilized to sense DNA ends and to regulate the extent of stimulation. [source]

Cell wall growth during elongation and division: one ring to bind them?

MOLECULAR MICROBIOLOGY, Issue 4 2007
Dirk-Jan Scheffers
Summary The role of the cell division protein FtsZ in bacterial cell wall (CW) synthesis is believed to be restricted to localizing proteins involved in the synthesis of the septal wall. In this issue of Molecular Microbiology, the groups of Christine Jacobs-Wagner and Waldemar Vollmer provide compelling evidence that in Caulobacter crescentus, FtsZ plays an additional role in CW synthesis in non-dividing cells. During elongation (cell growth) FtsZ is responsible for the incorporation of CW material in a zone at the midcell by recruiting MurG, a protein involved in peptidoglycan (PG) precursor synthesis. This resembles earlier findings of FtsZ mediated PG synthesis activity in Escherichia coli. A role of FtsZ in PG synthesis during elongation forces a rethink of the current model of CW synthesis in rod-shaped bacteria. [source]

Effect of the Photoperiod and Administration of Melatonin on the Pars Tuberalis of Viscacha (Lagostomus maximus maximus): An Ultrastructural Study

THE ANATOMICAL RECORD : ADVANCES IN INTEGRATIVE ANATOMY AND EVOLUTIONARY BIOLOGY, Issue 5 2010
Edith Perez Romera
Abstract The pituitary pars tuberalis (PT) is a glandular zone exhibiting well-defined structural characteristics. Morphologically, it is formed by specific secretory cells, folliculostellate cells, and migratory cells coming from the pars distalis. The purpose of this work was to investigate differences in specific cellular characteristics in the PT of viscachas captured in summer (long photoperiod) and winter (short photoperiod), as well as the effects of chronic melatonin administration in viscachas captured in summer and kept under long photoperiod. In summer, the PT-specific cells exhibited cell-like characteristics with an important secretory activity and a moderate amount of glycogen. In winter, the PT-specific granulated cells showed ultrastructural variations with signs of a reduced synthesis activity. Also, PT showed a high amount of glycogen and a great number of cells in degeneration. After melatonin administration, the ultrastructural characteristics were similar to those observed in winter, but the amount of glycogen was higher. These results suggest possible functional implications as a result of morphological differences between long and short photoperiods, and are in agreement with the variations of the pituitary-gonadal axis, probably in response to the natural photoperiod changes through the pineal melatonin. The ultrastructural differences observed in PT, after melatonin administration, were similar to those observed in the short photoperiod, thus supporting the hypothesis that these cytological changes are induced by melatonin. Anat Rec, 293:871,878, 2010. © 2010 Wiley-Liss, Inc. [source]

Study of stationary phase metabolism via isotopomer analysis of amino acids from an isolated protein

BIOTECHNOLOGY PROGRESS, Issue 1 2010
Afshan S. Shaikh
Abstract Microbial production of many commercially important secondary metabolites occurs during stationary phase, and methods to measure metabolic flux during this growth phase would be valuable. Metabolic flux analysis is often based on isotopomer information from proteinogenic amino acids. As such, flux analysis primarily reflects the metabolism pertinent to the growth phase during which most proteins are synthesized. To investigate central metabolism and amino acids synthesis activity during stationary phase, addition of fully 13C-labeled glucose followed by induction of green fluorescent protein (GFP) expression during stationary phase was used. Our results indicate that Escherichia coli was able to produce new proteins (i.e., GFP) in the stationary phase, and the amino acids in GFP were mostly from degraded proteins synthesized during the exponential growth phase. Among amino acid biosynthetic pathways, only those for serine, alanine, glutamate/glutamine, and aspartate/asparagine had significant activity during the stationary phase. © 2009 American Institute of Chemical Engineers Biotechnol. Prog., 2010 [source]

Cell-Free Protein Synthesis System Prepared from Insect Cells by Freeze-Thawing

BIOTECHNOLOGY PROGRESS, Issue 6 2006
Toru Ezure
We established a novel cell-free protein synthesis system derived from Trichoplusia ni (HighFive) insect cells by a simple extraction method. Luciferase and ,-galactosidase were synthesized in this system with active forms. We analyzed and optimized (1) the preparation method of the insect cell extract, (2) the concentration of the reaction components, and (3) the 5,-untranslated region (5,-UTR) of mRNA. The extract was prepared by freeze-thawing insect cells suspended in the extraction buffer. This preparation method was a simple and superior method compared with the conventional method using a Dounce homogenizer. Furthermore, protein synthesis efficiency was improved by the addition of 20% (v/v) glycerol to the extraction buffer. Concentrations of the reaction components were optimized to increase protein synthesis efficiency. Moreover, mRNAs containing 5,-UTRs derived from baculovirus polyhedrin genes showed high protein synthesis activity. Especially, the leader composition of the Ectropis obliqua nucleopolyhedrovirus polyhedrin gene showed the highest enhancement activity among the six 5,-UTRs tested. As a result, in a batch reaction approximately 71 ,g of luciferase was synthesized per milliliter of reaction volume at 25 °C for 6 h. Moreover, this method for the establishment of a cell-free system was applied also to Spodoptera frugiperda 21 (Sf21) insect cells. After optimizing the concentrations of the reaction components and the 5,-UTR of mRNA, approximately 45 ,g/mL of luciferase was synthesized in an Sf21 cell-free system at 25 °C for 3 h. These productivities were sufficient to perform gene expression analyses. Thus, these cell-free systems may be a useful tool for simple synthesis in post-genomic studies as a novel protein production method. [source]