Synthesis, characterization and crystal structure analysis of cobaltaborane and cobaltaheteroborane clusters

Sharmila, Dudekula ; Ramalakshmi, Rongala ; Chakrahari, Kiran Kumarvarma ; Varghese, Babu ; Ghosh, Sundargopal (2014) Synthesis, characterization and crystal structure analysis of cobaltaborane and cobaltaheteroborane clusters Dalton Transactions, 43 (26). pp. 9976-9985. ISSN 1477-9226

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Official URL: http://doi.org/10.1039/c4dt00964a

Related URL: http://dx.doi.org/10.1039/c4dt00964a

Abstract

Thyroxine deiodinases, the enzymes that regulate thyroxine metabolism, are essential for vertebrate growth and development. In the genome of Dictyostelium discoideum, a single intronless gene (dio3) encoding type III thyroxine 5′ deiodinase is present. The amino acid sequence of D. discoideum Dio3 shares 37% identity with human T4 deiodinase and is a member of the thioredoxin reductase superfamily. dio3 is expressed throughout growth and development and by generating a knockout of dio3, we have examined the role of thyroxine 5′ deiodinase in D. discoideum. dio3− had multiple defects that affected growth, timing of development, aggregate size, cell streaming, and cell-type differentiation. A prominent phenotype of dio3− was the breaking of late aggregates into small signaling centers, each forming a fruiting body of its own. cAMP levels, its relay, photo- and chemo-taxis were also defective in dio3−. Quantitative RT-PCR analyses suggested that expression levels of genes encoding adenylyl cyclase A (acaA), cAMP-receptor A (carA) and cAMP-phosphodiesterases were reduced. There was a significant reduction in the expression of CadA and CsaA, which are involved in cell–cell adhesion. The dio3− slugs had prestalk identity, with pronounced prestalk marker ecmA expression. Thus, Dio3 seems to have roles in mediating cAMP synthesis/relay, cell–cell adhesion and slug patterning. The phenotype of dio3− suggests that Dio3 may prevent the formation of multiple signaling centers during D. discoideum development. This is the first report of a gene involved in thyroxine metabolism that is also involved in growth and development in a lower eukaryote.

Item Type:Article
Source:Copyright of this article belongs to Royal Society of Chemistry.
ID Code:130754
Deposited On:29 Nov 2022 11:32
Last Modified:29 Nov 2022 11:32

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