X-ray spectroscopy and imaging of selenium in living systems

Background

Selenium is an essential element with a rich and varied chemistry in living organisms. It plays a variety of important roles ranging from being essential in enzymes that are critical for redox homeostasis to acting as a deterrent for herbivory in hyperaccumulating plants. Despite its importance there are many open questions, especially related to its chemistry in situ within living organisms.

Taxonomy of Soldier Flies (Diptera: Stratiomyidae) of Sunderban Biosphere Reserve,India

The present communication deals with recording of nine species of soldier flies (Insecta: Diptera: Stratiomyidae) from Sunderban Biosphere Reserve of India, of which, Tinda indica (Walker, 1851), Hermetia illucens (Linnaeus, 1758), Odontomyia kashmirensis Brunetti, 1920, Odontomyia viridana (Wiedemann, 1824), Prosopochrysa vitripennis (Doleschall, 1856) are being reported for the first time from this unique and globally acclaimed mangrove ecosystem. Odontomyia kashmirensis Brunetti, 1920 is reported for the first time from the state of West Bengal. A key to identify these species is provided with taxonomic notes.     

A New Genus of the Tetraphyllidean Cestodes from <Emphasis Type="Italic">Dasyatis sephen</Emphasis> Forsskal, 1775 Captured from Digha Coastal Water,Bay of Bengal,India

Aloculibothrium dasyatii n. gen. n. sp. is described from the spiral intestine of Dasyatis sephen Forsskal, 1775 captured at Digha coastal waters, Bay of Bengal, India. This species is placed under the famil Onchobothriidae (Braun, 1900) and erected a new genus Aloculibothrium to accommodate this specimen. The body is 24.22–36.58 mm long and with 310–325 proglottids; scolex rectangular with two parts; anterior bearing four bothridia with paired bifurcated hooks, divided into inner and outer prong and posterior with fleshy collar. The cestode has been compared with all the existing twelve different valid genera under the family Onchobothriidae but to accommodate the present specimens a new genera Aloculibothrium is erected.     

Amelioration of ionizing radiation induced lipid peroxidation in mouse liver by Moringa oleifera Lam. leaf extract

Protective effect of Moringa oleifera leaf extract (MoLE) against radiation-induced lipid peroxidation has been investigated. Swiss albino mice, selected from an inbred colony, were administered with MoLE (300 mg/kg body wt) for 15 days before exposing to a single dose of 5 Gy 60Co-gamma radiation. After treatments, animals were necropsied at different post irradiation intervals (days 1, 7 and 15) and hepatic lipid peroxidation and reduced glutathione (GSH) contents were estimated to observe the relative changes due to irradiation and its possible amelioration by MoLE. It was observed that, MoLE treatment restored GSH in liver and prevented radiation induced augmentation in hepatic lipid peroxidation. Phytochemical analysis showed that MoLE possess various phytochemicals such as ascorbic acid, phenolics (catechin, epicatechin, ferulic acid, ellagic acid, myricetin) etc., which may play the key role in prevention of hepatic lipid peroxidation by scavenging radiation induced free radicals.     

Cloning and characterization of lin genes responsible for the degradation of Hexachlorocyclohexane isomers by Sphingomonas paucimobilis strain B90

Hexachlorocyclohexane (HCH) has been used extensively against agricultural pests and in public health programs for the control of mosquitoes. Commercial formulations of HCH consist of a mixture of four isomers, alpha, beta, gamma, and delta. While all these isomers pose serious environmental problems, beta-HCH is more problematic due to its longer persistence in the environment. We have studied the degradation of HCH isomers by Sphingomonas paucimobilis strain B90 and characterized the lin genes encoding enzymes from strain B90 responsible for the degradation of HCH isomers. Two nonidentical copies of the linA gene encoding HCH dehydrochlorinase, which were designated linA1 and linA2, were found in S. paucimobilis B90. The linA1 and linA2 genes could be expressed in Escherichia coli, leading to dehydrochlorination of alpha-, gamma-, and delta-HCH but not of beta-HCH, suggesting that S. paucimobilis B90 contains another pathway for the initial steps of beta-HCH degradation. The cloning and characterization of the halidohydrolase (linB), dehydrogenase (linC and linX), and reductive dechlorinase (linD) genes from S. paucimobilis B90 revealed that they share approximately 96 to 99% identical nucleotides with the corresponding genes of S. paucimobilis UT26. No evidence was found for the presence of a linE-like gene, coding for a ring cleavage dioxygenase, in strain B90. The gene structures around the linA1 and linA2 genes of strain B90, compared to those in strain UT26, are suggestive of a recombination between linA1 and linA2, which formed linA of strain UT26.     

Chorioallantoic fusion defects and embryonic lethality resulting from disruption of Zfp36L1, a gene encoding a CCCH tandem zinc finger protein of the Tristetraprolin family

The mouse gene Zfp36L1 encodes zinc finger protein 36-like 1 (Zfp36L1), a member of the tristetraprolin (TTP) family of tandem CCCH finger proteins. TTP can bind to AU-rich elements within the 3'-untranslated regions of the mRNAs encoding tumor necrosis factor (TNF) and granulocyte-macrophage colony-stimulating factor (GM-CSF), leading to accelerated mRNA degradation. TTP knockout mice exhibit an inflammatory phenotype that is largely due to increased TNF secretion. Zfp36L1 has activities similar to those of TTP in cellular RNA destabilization assays and in cell-free RNA binding and deadenylation assays, suggesting that it may play roles similar to those of TTP in mammalian physiology. To address this question we disrupted Zfp36L1 in mice. All knockout embryos died in utero, most by approximately embryonic day 11 (E11). Failure of chorioallantoic fusion occurred in about two-thirds of cases. Even when fusion occurred, by E10.5 the affected placentas exhibited decreased cell division and relative atrophy of the trophoblast layers. Although knockout embryos exhibited neural tube abnormalities and increased apoptosis within the neural tube and also generalized runting, these and other findings may have been due to deficient placental function. Embryonic expression of Zfp36L1 at E8.0 was greatest in the allantois, consistent with a potential role in chorioallantoic fusion. Fibroblasts derived from knockout embryos had apparently normal levels of fully polyadenylated compared to deadenylated GM-CSF mRNA and normal rates of turnover of this mRNA species, both sensitive markers of TTP deficiency in cells. We postulate that lack of Zfp36L1 expression during mid-gestation results in the abnormal stabilization of one or more mRNAs whose encoded proteins lead directly or indirectly to abnormal placentation and fetal death.     

The expression of three desaturase genes of Spirulina platensis in Escherichia coli DH5α – Heterologous expression of Spirulina-desaturase genes

The genes from a cyanobacterium--Spirulina platensis strain C1--that encode the acyl-lipid desaturases (desC, desA and desD) involved in gamma-linolenic (GLA) synthesis have been successfully expressed for the first time in Escherichia coli by employing a pTrcHisA expression system. In this report, the authors describe the expression of the three Spirulina N-terminal 6xHis-desaturases as well as the functional analysis of these recombinant proteins. The gene products of desC, desA and desD have approximate molecular masses of 37, 45, and 47 kDa, respectively. Enzymatic activity measurement of these products was carried out in vivo to demonstrate that (i) the expressed proteins are in functional form, and (ii) the cofactors of the host system can complement the system of Spirulina platensis. The study demonstrated that the gene products of desC and desA catalyzed the reactions in vivo where the enzyme substrates were provided in appropriate concentration. This indicates that the delta9 and delta12 desaturases were expressed in the heterologous host in their active form, and that these two reactions can be carried out in an E. coli host cell using its cofactors system. In contrast, delta6 desaturase activity can be detected only in vitro where electron carriers are provided. This suggests that while this enzyme is expressed in the heterologous host in its active form, its function in vivo is suppressed, as the electron carriers of the host system cannot complement the system of Spirulina platensis.     

Functional Expression of <Emphasis Type="Italic">Spirulina</Emphasis>-Δ<Superscript>6</Superscript> Desaturase Gene in Yeast, <Emphasis Type="Italic">Saccharomyces cerevisiae</Emphasis>

Spirulina-acyl-lipid desaturases are membrane-bound enzymes found in thylakoid and plasma membranes. These enzymes carry out the fatty acid desaturation process of Spirulina to yield γ-linolenic acid (GLA) as the final desaturation product. In this study, Spirulina-Δ⁶ desaturase encoded by the desD gene was heterologously expressed and characterized in Saccharomyces cerevisiae. We then conducted site-directed mutagenesis of the histidine residues in the three histidine boxes to determine the role of these amino acid residues in the enzyme function. Our results showed that while four mutants showed complete loss of Δ⁶-desaturase activity and two mutants showed only trace of the activity, the enzyme activity could be partially restored by chemical rescue using exogenously provided imidazole. This study reveals that the histidine residues (which have imidazole as their functional group) in the conserved clusters play a critical role in Δ⁶-desaturase activity, possibly by providing a di-iron catalytic center. In our previous study, this enzyme was expressed in Escherichia coli. The results reveal that the enzyme can function only in the presence of an exogenous cofactor, ferredoxin, provided in vitro. This evidence suggests that baker’s yeast has a cofactor that can complement ferredoxin, thought to act as an electron donor for the Δ⁶ desaturation in cyanobacteria, including Spirulina. The electron donor of the Spirulina-Δ⁶ desaturation in yeast is more likely to be cytochrome b₅, which is absent in E. coli. This means that the enzyme expressed in S. cerevisiae can catalyze the biosynthesis of the product, GLA, in vivo.