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New Antioxidant Genes from an Anhydrobiotic Insect: Unique Structural Features in Functional Motifs of Thioredoxins
Ist Teil von
BioNanoScience, 2016-12, Vol.6 (4), p.568-570
Ort / Verlag
New York: Springer US
Erscheinungsjahr
2016
Quelle
Springer LINK 全文期刊数据库
Beschreibungen/Notizen
Polipedilum vanderplanki
is the most complex known organism able to survive body desiccation via entering a state of suspended metabolism called anhydrobiosis. This unique ability is based on the specific molecular machinery involving a synthesis of non-reducing sugar trehalose and a variety of protective proteins. Genes encoding these protective proteins are extensively duplicated in the
P. vanderplanki
genome and become hugely upregulated in response to desiccation. Some of these highly expressed genes encode substitutions of amino acids crucial for the function of corresponding proteins. An intriguing group of protective proteins in
P. vanderplanki
are thioredoxins (TRX). These antioxidant proteins are important for
P. vanderplanki
anhydrobiosis since desiccation is tightly related to the elevated production of free radicals and oxidative damage. The TRX set is unprecedentedly expanded in the
P. vanderplanki
genome up to 25 TRX genes. Genomes of congeneric midge
Polipedilum nubifer
,
Apis mellifera
,
Drosophila melanogaster
, and
Anopheles gambiae
encode only 3–7 TRX genes. Moreover, all three
P. vanderplanki
thioredoxin genes most expressed at 24 h of
P. vanderplanki
larva desiccation encode for proteins missing the typical CxxC motif.