1756-3305 < 1756-591X < 1757-4749

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List of bibliographic references indexed by 1756-591X

Number of relevant bibliographic references: 9.

Ident.	Authors (with country if any)	Title
000002 (2020)	Nikita Lotlikar [Inde] ; Samir Damare ; Ram Murti Meena ; Saranya Jayachandran	Variable protein expression in marine-derived filamentous fungus Penicillium chrysogenum in response to varying copper concentrations and salinity.
000055 (2020)	Gretchen Elizabeth Kroh [États-Unis] ; Marinus Pilon [États-Unis]	Iron deficiency and the loss of chloroplast iron-sulfur cluster assembly trigger distinct transcriptome changes in Arabidopsis rosettes.
000176 (2019)	Valeria Scalcon [Italie] ; Federica Tonolo [Italie] ; Alessandra Folda [Italie] ; Alberto Bindoli [Italie] ; Maria Pia Rigobello [Italie]	Dimers of glutaredoxin 2 as mitochondrial redox sensors in selenite-induced oxidative stress.
000241 (2018)	Yanfang Ouyang [République populaire de Chine] ; Yi Peng ; Jing Li ; Arne Holmgren ; Jun Lu	Modulation of thiol-dependent redox system by metal ions via thioredoxin and glutaredoxin systems.
000280 (2018)	Sambuddha Sen [États-Unis] ; Brian Rao ; Christine Wachnowsky ; J A Cowan	Cluster exchange reactivity of [2Fe-2S] cluster-bridged complexes of BOLA3 with monothiol glutaredoxins.
000313 (2017)	Adrienne C. Dlouhy [États-Unis] ; Jude Beaudoin ; Simon Labbé ; Caryn E. Outten	Schizosaccharomyces pombe Grx4 regulates the transcriptional repressor Php4 via [2Fe-2S] cluster binding.
000446 (2016)	Insiya Fidai [États-Unis] ; Christine Wachnowsky [États-Unis] ; J A Cowan [États-Unis]	Mapping cellular Fe-S cluster uptake and exchange reactions - divergent pathways for iron-sulfur cluster delivery to human ferredoxins.
000612 (2014)	Jens Brose [Australie] ; Sharon La Fontaine ; Anthony G. Wedd ; Zhiguang Xiao	Redox sulfur chemistry of the copper chaperone Atox1 is regulated by the enzyme glutaredoxin 1, the reduction potential of the glutathione couple GSSG/2GSH and the availability of Cu(I).
000743 (2013)	Ceren Alkim [France] ; Laurent Benbadis ; Ulku Yilmaz ; Z Petek Cakar ; Jean Marie François	Mechanisms other than activation of the iron regulon account for the hyper-resistance to cobalt of a Saccharomyces cerevisiae strain obtained by evolutionary engineering.

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