A docking model of human ribonucleotide reductase with flavin and phenosafranine

Ribonucleotide Reductase (RNR) is an enzyme responsible for the reduction of ribonucleotides to their corresponding Deoxyribonucleotides (DNA), which is a building block for DNA replication and repair mechanisms. The key role of RNR in DNA synthesis and control in cell growth has made this an important target for anticancer therapy. Increased RNR activity has been associated with malignant transformation and tumor cell growth. In recent years, several RNR inhibitors, including Triapine, Gemcitabine and GTI-2040, have entered the clinical trials. Our current work focuses on an attempted to dock this inhibitors Flavin and Phenosafranine to curtail the action of human RNR2. The docked inhibitor Flavin and Phenosafranine binds at the active site with THR176, which are essential for free radical formation. The inhibitor must be a radical scavenger to destroy the tyrosyl radical or iron metal scavenger. The iron or radical site of R2 protein can react with one-electron reductants, whereby the tyrosyl radical is converted to a normal tyrosine residue. However, compounds such as Flavin and Phenosafranine were used in most of the cases to reduce the radical activity. The docking study was performed for the crystal structure of human RNR with the radical scavengers Flavin and Phenosafranine to inhibit the human RNR2. This helps to understand the functional aspects and also aids in the development of novel inhibitors for the human RNR2.     

Structural prediction and analysis of VIH-related peptides from selected crustacean species

The tentative elucidation of the 3D-structure of vitellogenesis inhibiting hormone (VIH) peptides is conversely underprivileged by difficulties in gaining enough peptide or protein, diffracting crystals, and numerous extra technical aspects. As a result, no structural information is available for VIH peptide sequences registered in the Genbank. In this situation, it is not surprising that predictive methods have achieved great interest. Here, in this study the molt-inhibiting hormone (MIH) of the kuruma prawn (Marsupenaeus japonicus) is used, to predict the structure of four VIHrelated peptides in the crustacean species. The high similarity of the 3D-structures and the calculated physiochemical characteristics of these peptides suggest a common fold for the entire family.     

Bioactivity of the compounds in genus Dysoxylum

The diets of the wolf Canis lupus, red fox Vulpes vulpes and raccoon dog Nyctereutes ussurienusis Matschie were studied in the grassland of eastern Inner Mongolia from August to October in 2007 and from March to July in 2008. Feces were collected from dens and latrines. The frequency of occurrence and the dry weight of the remains of each food item in the feces were calculated. Livestock (50.65% frequency of occurrence) constituted the bulk of the wolf diet, while small rodents (76.31% frequency of occurrence) were most frequently eaten by the foxes. Small rodents (22.69% frequency of occurrence) were important to the raccoon dogs but they also frequently consumed birds (39.81% frequency of occurrence) and insects (26.39% frequency of occurrence). The wolf was the most omnivorous and the red fox was the least omnivorous of these three kinds of canidae according to the diversity index. The food niches of the wolf and the red fox overlapped more than that of the raccoon dog and other species. These three kinds of canidae shared many resources and consequently competition occurred to them. However, their diets also differed to some extent which helped them to avoid competition. Furthermore, raccoon dogs were dormant in winter when food was scarce, which may be the reason why all these species could coexist in a rather unproductive grassland.     

Getting a Grip on Complexes

We are witnessing tremendous advances in our understanding of the organization of life. Complete genomes are being deciphered with ever increasing speed and accuracy, thereby setting the stage for addressing the entire gene product repertoire of cells, towards understanding whole biological systems. Advances in bioinformatics and mass spectrometric techniques have revealed the multitude of interactions present in the proteome. Multiprotein complexes are emerging as a paramount cornerstone of biological activity, as many proteins appear to participate, stably or transiently, in large multisubunit assemblies. Analysis of the architecture of these assemblies and their manifold interactions is imperative for understanding their function at the molecular level. Structural genomics efforts have fostered the development of many technologies towards achieving the throughput required for studying system-wide single proteins and small interaction motifs at high resolution. The present shift in focus towards large multiprotein complexes, in particular in eukaryotes, now calls for a likewise concerted effort to develop and provide new technologies that are urgently required to produce in quality and quantity the plethora of multiprotein assemblies that form the complexome, and to routinely study their structure and function at the molecular level. Current efforts towards this objective are summarized and reviewed in this contribution.Key Words: Proteome, interactome, multiprotein assemblies, structural genomics, robotics, multigene expression, multiBac, BEVS, ACEMBL, complexomics.     

Choroidal eye metastases from (recurrent) primary peritoneal carcinoma: case report and review of the literature

Background

Choroidal metastases from gynaecological primary are extremely rare. There is no documented case in the literature of choroid metastasis in a patient with primary peritoneal carcinoma (PPC).

Methods & Results

We describe the first case of a 54-year-old woman with a history of borderline mucinous tumour who presented 17 months later with PPC and 21 months after with recurrent disease metastatic to the eye, and review pertinent literature.

Conclusion

High index of suspicion is warranted when patients with history of primary peritoneal carcinoma present with visual complaints in order to treat and/or relieve symptomatology from metastatic eye disease.

     

Bioactivity of the compounds in genus Dysoxylum

The genus Dysoxylum is a large genus comprising of about a dozen species, distributed in India. This is the genus which is rich in compounds like terpenoids and alkaloids. The isolated compounds from the genus were reported to have interesting biological activities. This review contains the chemical structures, along with their biological activities reported in the literature.     

Amplification of phytochrome induced morphogenesis in plants by the cryptic red light signal (CRS)

The regulation of endogenous levels of ascorbic acid in soybean by far-red absorbing form of phytochrome (Pfr) and by cryptic red light signal (CRS) was studied. Cryptic red light signal is produced by red light pre-irradiation of a photoreceptor other than far-red absorbing form of phytochrome (Pfr) and CRS amplifies the action of phytochrome. The endogenous level of ascorbic acid levels enhanced by phytochrome was amplified by CRS. The lifetime of CRS was from 0 to 2 h and the peak of enhancement of ascorbic acid due to CRS was between 16 to 24 h of dark incubation after the end of the treatment. CRS was found to be ineffective on UV-B enhanced endogenous levels of ascorbic acid.Key words: ascorbic acid, cryptic red light signal, glycine max, phytochrome, ultraviolet-BThe phytochrome mediated morphogenesis involves the conversion of Pr [red absorbing form] to Pfr [far-red absorbing form] and the magnitude of the response is dependent on Pfr/P tot ratio established at the end of the irradiation.¹ In broom Sorghum anthocyanin synthesis induced by red light [R₁] is reversible with far-red light. But a second red pulse [R₂] given after the reversal resulted in increased anthocyanin production compared to the first pulse [R₁]. When the red pulse was repeatedly given after every reversal with far-red, the anthocyanin production increased proportionately to the number of previously given pulses.² Thus red pre-treatment induced a change in the cellular physiological state or change in content of a relevant substance[s] which is designated as Cryptic Red Light Signal [CRS] associated with red signal transduction.² CRS was first characterized in detail in Broom Sorghum as Pfr amplifying signal produced by red pre-irradiation. CRS is inactive in the absence of Pfr but enhances the action of Pfr. CRS escapes reversal when the plants are exposed to far-red and is probably produced by a different species of phytochrome, distinct from the conventional reversible phytochrome.³We have investigated whether CRS influences other phytochrome regulated processes in plants in addition to anthocyanin synthesis. We chose another process, the synthesis of endogenous ascorbic acid, which is also regulated by conventional phytochrome.⁴ In soybean, the endogenous level of ascorbic acid is enhanced by conventional far-red reversible form of phytochrome. In addition, an independent UV-B photoreceptor [non reversible with far-red light] also enhances the endogenous synthesis of ascorbic acid in soybean. By using repeated pulses of red light, we have demonstrated that the Cryptic Red Signal is operative in soybean also and it amplifies the red light induced enhancement in the level of ascorbic acid. That CRS is active only in the presence of Pfr is demonstrated by the fact that pre-irradiation with red light is ineffective in amplifying UV-B induced enhancement of ascorbic acid levels. A similar observation on UV-B induced anthocyanin synthesis has been made in Broom Sorghum.² A separate UV-B photoreceptor independent of phytochrome operates in the plants.⁵ Although CRS is presumably produced by pre-irradiation with red light, it does not enhance UV-B induced anthocyanin synthesis or ascorbic acid synthesis in the absence of formation of Pfr by the second red pulse.The life-time of CRS was determined as 6 h in 20°C and 3 h in 24°C grown seedlings of Broom Sorghum with reference to anthocyanin synthesis.² The life-time of CRS determined in soybean seedlings grown at 25°C was upto 1 h.⁶ Since growing seedlings at a low temperature enhanced the effectiveness of CRS in Broom Sorghum, it was concluded that low temperature may either extend the lifetime of CRS or generate higher amount of CRS.² Although the exact nature of CRS is yet to be analyzed, work in our laboratory has established the universal nature of this signal and evidences have been obtained for CRS effect in promoting red light induced hypocotyls inhibition in Cucumber seedlings and also red light induced synthesis of betacyanins in Amaranthus seedlings (submitted for publication).     

Preserved MHC Class II Antigen Processing in Monocytes from HIV-Infected Individuals

Background

MHC-II restricted CD4+ T cells are dependent on antigen presenting cells (APC) for their activation. APC dysfunction in HIV-infected individuals could accelerate or exacerbate CD4+ T cell dysfunction and may contribute to increased levels of immunodeficiency seen in some patients regardless of their CD4+ T cell numbers. Here we test the hypothesis that APC from HIV-infected individuals have diminished antigen processing and presentation capacity.

Methodology/Principal Findings

Monocytes (MN) were purified by immuno-magnetic bead isolation techniques from HLA-DR1.01+ or DR15.01+ HIV-infected and uninfected individuals. MN were analyzed for surface MHC-II expression and for antigen processing and presentation capacity after overnight incubation with soluble antigen or peptide and HLA-DR matched T cell hybridomas. Surface expression of HLA-DR was 20% reduced (p<0.03) on MN from HIV-infected individuals. In spite of this, there was no significant difference in antigen processing and presentation by MN from 14 HIV-infected donors (8 HLA-DR1.01+ and 6 HLA-DR15.01+) compared to 24 HIV-uninfected HLA-matched subjects.

Conclusions/Significance

We demonstrated that MHC class II antigen processing and presentation is preserved in MN from HIV-infected individuals. This further supports the concept that this aspect of APC function does not further contribute to CD4+ T cell dysfunction in HIV disease.     

Differential response of antioxidative enzymes to various abiotic stresses in <Emphasis Type="Italic">Pennisetum glaucum</Emphasis> seedlings

Antioxidative enzyme activities and their isozyme patterns under water-deficit, salinity, high and low temperature stresses were studied in the seedlings of Pennisetum glaucum (L.) R.Br. It was observed that under water-deficit stress glutathione reductase (GR) was the key enzyme while in case of high temperature stress, GR along with catalase played a major role. Superoxide dismutase was found to be the main enzyme under low temperature stress. Co-ordinated higher expression of all the antioxidative enzymes was observed under salt stress. This study revealed the operation of different enzymatic antioxidative mechanisms under various abiotic stresses that will aid in understanding the metabolic basis of stress tolerance in pearl millet.