TY - JOUR
T1 - Cytosolic Ni(II) sensor in cyanobacterium
T2 - Nickel detection follows nickel affinity across four families of metal sensors
AU - Foster, Andrew W.
AU - Patterson, Carl J.
AU - Pernil, Rafael
AU - Hess, Corinna R.
AU - Robinson, Nigel J.
PY - 2012/4/6
Y1 - 2012/4/6
N2 - Efflux of surplus Ni(II) across the outer and inner membranes of Synechocystis PCC 6803 is mediated by the Nrs system under the control of a sensor of periplasmic Ni(II), NrsS. Here, we show that the product of ORF sll0176, which encodes a CsoR/RcnR-like protein now designated InrS (for internal nickel-responsive sensor), represses nrsD (NrsD is deduced to efflux Ni(II) across the inner membrane) from a cryptic promoter between the final two ORFs in the nrs operon. Transcripts initiated from the newly identified nrsD promoter accumulate in response to nickel or cobalt but not copper, and recombinant InrS forms specific, Ni(II)-inhibited complexes with the nrsD promoter region. Metal-dependent difference spectra of Ni(II)- and Cu(I)- InrS are similar to Cu(I)-sensing CsoR and dissimilar to Ni(II)/ Co(II)-sensing RcnR, consistent with factors beyond the primary coordination sphere switching metal selectivity. Competition with chelators mag-fura-2, nitrilotriacetic acid, EDTA, and EGTA estimate K D Ni(II) for the tightest site of InrS as 2.05 (±1.5) × 10 -14 M, and weaker K D Ni(II) for the cells'metal sensors of other types: Zn(II) co-repressor Zur, Co(II) activator CoaR, and Zn(II) derepressor ZiaR. Ni(II) transfer to InrS occurs upon addition to Ni(II) forms of each other sensor. InrS binds Ni(II) sufficiently tightly to derepress Ni(II) export at concentrations below K D Ni(II) of the other sensors.
AB - Efflux of surplus Ni(II) across the outer and inner membranes of Synechocystis PCC 6803 is mediated by the Nrs system under the control of a sensor of periplasmic Ni(II), NrsS. Here, we show that the product of ORF sll0176, which encodes a CsoR/RcnR-like protein now designated InrS (for internal nickel-responsive sensor), represses nrsD (NrsD is deduced to efflux Ni(II) across the inner membrane) from a cryptic promoter between the final two ORFs in the nrs operon. Transcripts initiated from the newly identified nrsD promoter accumulate in response to nickel or cobalt but not copper, and recombinant InrS forms specific, Ni(II)-inhibited complexes with the nrsD promoter region. Metal-dependent difference spectra of Ni(II)- and Cu(I)- InrS are similar to Cu(I)-sensing CsoR and dissimilar to Ni(II)/ Co(II)-sensing RcnR, consistent with factors beyond the primary coordination sphere switching metal selectivity. Competition with chelators mag-fura-2, nitrilotriacetic acid, EDTA, and EGTA estimate K D Ni(II) for the tightest site of InrS as 2.05 (±1.5) × 10 -14 M, and weaker K D Ni(II) for the cells'metal sensors of other types: Zn(II) co-repressor Zur, Co(II) activator CoaR, and Zn(II) derepressor ZiaR. Ni(II) transfer to InrS occurs upon addition to Ni(II) forms of each other sensor. InrS binds Ni(II) sufficiently tightly to derepress Ni(II) export at concentrations below K D Ni(II) of the other sensors.
UR - http://www.scopus.com/inward/record.url?scp=84859510164&partnerID=8YFLogxK
U2 - 10.1074/jbc.M111.338301
DO - 10.1074/jbc.M111.338301
M3 - Article
C2 - 22356910
AN - SCOPUS:84859510164
SN - 0021-9258
VL - 287
SP - 12142
EP - 12151
JO - Journal of Biological Chemistry
JF - Journal of Biological Chemistry
IS - 15
ER -