Barium ion sensing with IPG K+ molecular probes

R. L. Miller; N. Byrnes; C. G. Cameron; A. J. Carlson; E. Dey; R. Madigan; J. Medina; S. Melancon; K. E. Navarro; F. W. Foss; B. J.P. Jones; C. Adams; H. Almazán; V. Alvarez; A. I. Aranburu; L. Arazi; I. J. Arnquist; F. Auria-Luna; S. Ayet; C. D.R. Azevedo; K. Bailey; F. Ballester; J. E. Barcelon; M. del Barrio-Torregrosa; A. Bayo; J. M. Benlloch-Rodriguez; F. I.G.M. Borges; A. Brodolin; A. Castillo; E. Church; L. Cid; C. A.N. Conde; C. Cortes-Parra; F. P. Cossío; R. Coupe; P. Dietz; C. Echevarria; M. Elorza; R. Esteve; R. Felkai; L. M.P. Fernandes; P. Ferrario; Z. Freixa; J. García-Barrena; J. J. Gómez-Cadenas; J. W.R. Grocott; R. Guenette; J. Hauptman; C. A.O. Henriques; J. A. Hernando Morata; P. Herrero-Gómez; V. Herrero; C. Hervés Carrete; Y. Ifergan; F. Kellerer; L. Larizgoitia; A. Larumbe; P. Lebrun; F. Lopez; N. López-March; R. D.P. Mano; A. Marauri; A. P. Marques; J. Martín-Albo; A. Martínez; G. Martínez-Lema; M. Martínez-Vara; K. Mistry; J. Molina-Canteras; F. Monrabal; C. M.B. Monteiro; F. J. Mora; P. Novella; D. R. Nygren; E. Oblak; J. Palacio; B. Palmeiro; A. Para; I. Parmaksiz; A. Pazos; J. Pelegrin; M. Pérez Maneiro; M. Querol; J. Renner; I. Rivilla; C. Rogero; L. Rogers; B. Romeo; C. Romo-Luque; E. Ruiz-Choliz; P. Saharia; F. P. Santos; J. M.F. dos Santos; M. Seemann; I. Shomroni; A. L.M. Silva; P. A.O.C. Silva; A. Simón; S. R. Soleti; M. Sorel; J. Soto-Oton; J. M.R. Teixeira; S. Teruel-Pardo; J. F. Toledo; C. Tonnelé; S. Torelli; J. Torrent; A. Trettin; P. R.G. Valle; M. Vanga; J. F.C.A. Veloso; J. D. Villamil; J. Waiton; A. Yubero-Navarro

doi:10.1039/d5an00577a

Barium ion sensing with IPG K⁺ molecular probes

R. L. Miller
, N. Byrnes
, C. G. Cameron
, A. J. Carlson
, E. Dey
, R. Madigan
, J. Medina
, S. Melancon
, K. E. Navarro
, F. W. Foss
, B. J.P. Jones
, C. Adams
, H. Almazán
, V. Alvarez
, A. I. Aranburu
, L. Arazi
, I. J. Arnquist
, F. Auria-Luna
, S. Ayet
, C. D.R. Azevedo

K. Bailey, F. Ballester, J. E. Barcelon, M. del Barrio-Torregrosa, A. Bayo, J. M. Benlloch-Rodriguez, F. I.G.M. Borges, A. Brodolin, A. Castillo, E. Church, L. Cid, C. A.N. Conde, C. Cortes-Parra, F. P. Cossío, R. Coupe, P. Dietz, C. Echevarria, M. Elorza, R. Esteve, R. Felkai, L. M.P. Fernandes, P. Ferrario, Z. Freixa, J. García-Barrena, J. J. Gómez-Cadenas, J. W.R. Grocott, R. Guenette, J. Hauptman, C. A.O. Henriques, J. A. Hernando Morata, P. Herrero-Gómez, V. Herrero, C. Hervés Carrete, Y. Ifergan, F. Kellerer, L. Larizgoitia, A. Larumbe, P. Lebrun, F. Lopez, N. López-March, R. D.P. Mano, A. Marauri, A. P. Marques, J. Martín-Albo, A. Martínez, G. Martínez-Lema, M. Martínez-Vara, K. Mistry, J. Molina-Canteras, F. Monrabal, C. M.B. Monteiro, F. J. Mora, P. Novella, D. R. Nygren, E. Oblak, J. Palacio, B. Palmeiro, A. Para, I. Parmaksiz, A. Pazos, J. Pelegrin, M. Pérez Maneiro, M. Querol, J. Renner, I. Rivilla, C. Rogero, L. Rogers, B. Romeo, C. Romo-Luque, E. Ruiz-Choliz, P. Saharia, F. P. Santos, J. M.F. dos Santos, M. Seemann, I. Shomroni, A. L.M. Silva, P. A.O.C. Silva, A. Simón, S. R. Soleti, M. Sorel, J. Soto-Oton, J. M.R. Teixeira, S. Teruel-Pardo, J. F. Toledo, C. Tonnelé, S. Torelli, J. Torrent, A. Trettin, P. R.G. Valle, M. Vanga, J. F.C.A. Veloso, J. D. Villamil, J. Waiton, A. Yubero-Navarro

Unit of Nuclear Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

Fluorophores covalently bound to azacrown ether ionophores can be assembled into sensitive turn-on chemosensors. The size specificity and electron-rich nature of the ionophore's binding domain contribute to both selectivity and strong turn-on fluorescence sensing by various mechanisms when properly constructed. Aza-18-crown-6 ethers are quite selective for binding to K⁺ and Ba²⁺ , yet the more electron-withdrawing dicationic nature of barium imposes a larger electronic effect on turn-on fluorescent sensors. Barium chemosensors can be important for measuring soluble Ba²⁺ in drinking water and have gained recent attention for their potential to enhance the detection of rare events in xenon decay. Here we quantify the capability of three chemosensors, marketed for biologically useful K⁺ sensing, as effective probes for Ba²⁺ ions. We present measurements from bulk spectrofluorometry to characterize the system in aqueous solutions and demonstrate the usefulness of these species for low-background single-ion fluorescence microscopy, revealing new candidates for Ba²⁺ sensing.

Original language	English
Pages (from-to)	5558-5567
Number of pages	10
Journal	Analyst
Volume	150
Issue number	24
DOIs	https://doi.org/10.1039/d5an00577a
State	Accepted/In press - 1 Jan 2025

ASJC Scopus subject areas

Analytical Chemistry
Environmental Chemistry
Biochemistry
Spectroscopy
Electrochemistry

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10.1039/d5an00577a

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Miller, R. L., Byrnes, N., Cameron, C. G., Carlson, A. J., Dey, E., Madigan, R., Medina, J., Melancon, S., Navarro, K. E., Foss, F. W., Jones, B. J. P., Adams, C., Almazán, H., Alvarez, V., Aranburu, A. I., Arazi, L., Arnquist, I. J., Auria-Luna, F., Ayet, S., ... Yubero-Navarro, A. (Accepted/In press). Barium ion sensing with IPG K⁺ molecular probes. Analyst, 150(24), 5558-5567. https://doi.org/10.1039/d5an00577a

@article{de438e67793140a2b366426729832e47,

title = "Barium ion sensing with IPG K+ molecular probes",

abstract = "Fluorophores covalently bound to azacrown ether ionophores can be assembled into sensitive turn-on chemosensors. The size specificity and electron-rich nature of the ionophore's binding domain contribute to both selectivity and strong turn-on fluorescence sensing by various mechanisms when properly constructed. Aza-18-crown-6 ethers are quite selective for binding to K+ and Ba2+ , yet the more electron-withdrawing dicationic nature of barium imposes a larger electronic effect on turn-on fluorescent sensors. Barium chemosensors can be important for measuring soluble Ba2+ in drinking water and have gained recent attention for their potential to enhance the detection of rare events in xenon decay. Here we quantify the capability of three chemosensors, marketed for biologically useful K+ sensing, as effective probes for Ba2+ ions. We present measurements from bulk spectrofluorometry to characterize the system in aqueous solutions and demonstrate the usefulness of these species for low-background single-ion fluorescence microscopy, revealing new candidates for Ba2+ sensing.",

author = "Miller, \{R. L.\} and N. Byrnes and Cameron, \{C. G.\} and Carlson, \{A. J.\} and E. Dey and R. Madigan and J. Medina and S. Melancon and Navarro, \{K. E.\} and Foss, \{F. W.\} and Jones, \{B. J.P.\} and C. Adams and H. Almaz{\'a}n and V. Alvarez and Aranburu, \{A. I.\} and L. Arazi and Arnquist, \{I. J.\} and F. Auria-Luna and S. Ayet and Azevedo, \{C. D.R.\} and K. Bailey and F. Ballester and Barcelon, \{J. E.\} and \{del Barrio-Torregrosa\}, M. and A. Bayo and Benlloch-Rodriguez, \{J. M.\} and Borges, \{F. I.G.M.\} and A. Brodolin and A. Castillo and E. Church and L. Cid and Conde, \{C. A.N.\} and C. Cortes-Parra and Coss{\'i}o, \{F. P.\} and R. Coupe and P. Dietz and C. Echevarria and M. Elorza and R. Esteve and R. Felkai and Fernandes, \{L. M.P.\} and P. Ferrario and Z. Freixa and J. Garc{\'i}a-Barrena and G{\'o}mez-Cadenas, \{J. J.\} and Grocott, \{J. W.R.\} and R. Guenette and J. Hauptman and Henriques, \{C. A.O.\} and \{Hernando Morata\}, \{J. A.\} and P. Herrero-G{\'o}mez and V. Herrero and \{Herv{\'e}s Carrete\}, C. and Y. Ifergan and F. Kellerer and L. Larizgoitia and A. Larumbe and P. Lebrun and F. Lopez and N. L{\'o}pez-March and Mano, \{R. D.P.\} and A. Marauri and Marques, \{A. P.\} and J. Mart{\'i}n-Albo and A. Mart{\'i}nez and G. Mart{\'i}nez-Lema and M. Mart{\'i}nez-Vara and K. Mistry and J. Molina-Canteras and F. Monrabal and Monteiro, \{C. M.B.\} and Mora, \{F. J.\} and P. Novella and Nygren, \{D. R.\} and E. Oblak and J. Palacio and B. Palmeiro and A. Para and I. Parmaksiz and A. Pazos and J. Pelegrin and \{P{\'e}rez Maneiro\}, M. and M. Querol and J. Renner and I. Rivilla and C. Rogero and L. Rogers and B. Romeo and C. Romo-Luque and E. Ruiz-Choliz and P. Saharia and Santos, \{F. P.\} and \{dos Santos\}, \{J. M.F.\} and M. Seemann and I. Shomroni and Silva, \{A. L.M.\} and Silva, \{P. A.O.C.\} and A. Sim{\'o}n and Soleti, \{S. R.\} and M. Sorel and J. Soto-Oton and Teixeira, \{J. M.R.\} and S. Teruel-Pardo and Toledo, \{J. F.\} and C. Tonnel{\'e} and S. Torelli and J. Torrent and A. Trettin and Valle, \{P. R.G.\} and M. Vanga and Veloso, \{J. F.C.A.\} and Villamil, \{J. D.\} and J. Waiton and A. Yubero-Navarro",

note = "Publisher Copyright: This journal is {\textcopyright} The Royal Society of Chemistry, 2025",

year = "2025",

month = jan,

day = "1",

doi = "10.1039/d5an00577a",

language = "English",

volume = "150",

pages = "5558--5567",

journal = "Analyst",

issn = "0003-2654",

publisher = "Royal Society of Chemistry",

number = "24",

}

Miller, RL, Byrnes, N, Cameron, CG, Carlson, AJ, Dey, E, Madigan, R, Medina, J, Melancon, S, Navarro, KE, Foss, FW, Jones, BJP, Adams, C, Almazán, H, Alvarez, V, Aranburu, AI, Arazi, L, Arnquist, IJ, Auria-Luna, F, Ayet, S, Azevedo, CDR, Bailey, K, Ballester, F, Barcelon, JE, del Barrio-Torregrosa, M, Bayo, A, Benlloch-Rodriguez, JM, Borges, FIGM, Brodolin, A, Castillo, A, Church, E, Cid, L, Conde, CAN, Cortes-Parra, C, Cossío, FP, Coupe, R, Dietz, P, Echevarria, C, Elorza, M, Esteve, R, Felkai, R, Fernandes, LMP, Ferrario, P, Freixa, Z, García-Barrena, J, Gómez-Cadenas, JJ, Grocott, JWR, Guenette, R, Hauptman, J, Henriques, CAO, Hernando Morata, JA, Herrero-Gómez, P, Herrero, V, Hervés Carrete, C, Ifergan, Y, Kellerer, F, Larizgoitia, L, Larumbe, A, Lebrun, P, Lopez, F, López-March, N, Mano, RDP, Marauri, A, Marques, AP, Martín-Albo, J, Martínez, A, Martínez-Lema, G, Martínez-Vara, M, Mistry, K, Molina-Canteras, J, Monrabal, F, Monteiro, CMB, Mora, FJ, Novella, P, Nygren, DR, Oblak, E, Palacio, J, Palmeiro, B, Para, A, Parmaksiz, I, Pazos, A, Pelegrin, J, Pérez Maneiro, M, Querol, M, Renner, J, Rivilla, I, Rogero, C, Rogers, L, Romeo, B, Romo-Luque, C, Ruiz-Choliz, E, Saharia, P, Santos, FP, dos Santos, JMF, Seemann, M, Shomroni, I, Silva, ALM, Silva, PAOC, Simón, A, Soleti, SR, Sorel, M, Soto-Oton, J, Teixeira, JMR, Teruel-Pardo, S, Toledo, JF, Tonnelé, C, Torelli, S, Torrent, J, Trettin, A, Valle, PRG, Vanga, M, Veloso, JFCA, Villamil, JD, Waiton, J & Yubero-Navarro, A 2025, 'Barium ion sensing with IPG K⁺ molecular probes', Analyst, vol. 150, no. 24, pp. 5558-5567. https://doi.org/10.1039/d5an00577a

TY - JOUR

T1 - Barium ion sensing with IPG K+ molecular probes

AU - Miller, R. L.

AU - Byrnes, N.

AU - Cameron, C. G.

AU - Carlson, A. J.

AU - Dey, E.

AU - Madigan, R.

AU - Medina, J.

AU - Melancon, S.

AU - Navarro, K. E.

AU - Foss, F. W.

AU - Jones, B. J.P.

AU - Adams, C.

AU - Almazán, H.

AU - Alvarez, V.

AU - Aranburu, A. I.

AU - Arazi, L.

AU - Arnquist, I. J.

AU - Auria-Luna, F.

AU - Ayet, S.

AU - Azevedo, C. D.R.

AU - Bailey, K.

AU - Ballester, F.

AU - Barcelon, J. E.

AU - del Barrio-Torregrosa, M.

AU - Bayo, A.

AU - Benlloch-Rodriguez, J. M.

AU - Borges, F. I.G.M.

AU - Brodolin, A.

AU - Castillo, A.

AU - Church, E.

AU - Cid, L.

AU - Conde, C. A.N.

AU - Cortes-Parra, C.

AU - Cossío, F. P.

AU - Coupe, R.

AU - Dietz, P.

AU - Echevarria, C.

AU - Elorza, M.

AU - Esteve, R.

AU - Felkai, R.

AU - Fernandes, L. M.P.

AU - Ferrario, P.

AU - Freixa, Z.

AU - García-Barrena, J.

AU - Gómez-Cadenas, J. J.

AU - Grocott, J. W.R.

AU - Guenette, R.

AU - Hauptman, J.

AU - Henriques, C. A.O.

AU - Hernando Morata, J. A.

AU - Herrero-Gómez, P.

AU - Herrero, V.

AU - Hervés Carrete, C.

AU - Ifergan, Y.

AU - Kellerer, F.

AU - Larizgoitia, L.

AU - Larumbe, A.

AU - Lebrun, P.

AU - Lopez, F.

AU - López-March, N.

AU - Mano, R. D.P.

AU - Marauri, A.

AU - Marques, A. P.

AU - Martín-Albo, J.

AU - Martínez, A.

AU - Martínez-Lema, G.

AU - Martínez-Vara, M.

AU - Mistry, K.

AU - Molina-Canteras, J.

AU - Monrabal, F.

AU - Monteiro, C. M.B.

AU - Mora, F. J.

AU - Novella, P.

AU - Nygren, D. R.

AU - Oblak, E.

AU - Palacio, J.

AU - Palmeiro, B.

AU - Para, A.

AU - Parmaksiz, I.

AU - Pazos, A.

AU - Pelegrin, J.

AU - Pérez Maneiro, M.

AU - Querol, M.

AU - Renner, J.

AU - Rivilla, I.

AU - Rogero, C.

AU - Rogers, L.

AU - Romeo, B.

AU - Romo-Luque, C.

AU - Ruiz-Choliz, E.

AU - Saharia, P.

AU - Santos, F. P.

AU - dos Santos, J. M.F.

AU - Seemann, M.

AU - Shomroni, I.

AU - Silva, A. L.M.

AU - Silva, P. A.O.C.

AU - Simón, A.

AU - Soleti, S. R.

AU - Sorel, M.

AU - Soto-Oton, J.

AU - Teixeira, J. M.R.

AU - Teruel-Pardo, S.

AU - Toledo, J. F.

AU - Tonnelé, C.

AU - Torelli, S.

AU - Torrent, J.

AU - Trettin, A.

AU - Valle, P. R.G.

AU - Vanga, M.

AU - Veloso, J. F.C.A.

AU - Villamil, J. D.

AU - Waiton, J.

AU - Yubero-Navarro, A.

PY - 2025/1/1

Y1 - 2025/1/1

N2 - Fluorophores covalently bound to azacrown ether ionophores can be assembled into sensitive turn-on chemosensors. The size specificity and electron-rich nature of the ionophore's binding domain contribute to both selectivity and strong turn-on fluorescence sensing by various mechanisms when properly constructed. Aza-18-crown-6 ethers are quite selective for binding to K+ and Ba2+ , yet the more electron-withdrawing dicationic nature of barium imposes a larger electronic effect on turn-on fluorescent sensors. Barium chemosensors can be important for measuring soluble Ba2+ in drinking water and have gained recent attention for their potential to enhance the detection of rare events in xenon decay. Here we quantify the capability of three chemosensors, marketed for biologically useful K+ sensing, as effective probes for Ba2+ ions. We present measurements from bulk spectrofluorometry to characterize the system in aqueous solutions and demonstrate the usefulness of these species for low-background single-ion fluorescence microscopy, revealing new candidates for Ba2+ sensing.

AB - Fluorophores covalently bound to azacrown ether ionophores can be assembled into sensitive turn-on chemosensors. The size specificity and electron-rich nature of the ionophore's binding domain contribute to both selectivity and strong turn-on fluorescence sensing by various mechanisms when properly constructed. Aza-18-crown-6 ethers are quite selective for binding to K+ and Ba2+ , yet the more electron-withdrawing dicationic nature of barium imposes a larger electronic effect on turn-on fluorescent sensors. Barium chemosensors can be important for measuring soluble Ba2+ in drinking water and have gained recent attention for their potential to enhance the detection of rare events in xenon decay. Here we quantify the capability of three chemosensors, marketed for biologically useful K+ sensing, as effective probes for Ba2+ ions. We present measurements from bulk spectrofluorometry to characterize the system in aqueous solutions and demonstrate the usefulness of these species for low-background single-ion fluorescence microscopy, revealing new candidates for Ba2+ sensing.

UR - https://www.scopus.com/pages/publications/105022262326

U2 - 10.1039/d5an00577a

DO - 10.1039/d5an00577a

M3 - Article

C2 - 41269244

AN - SCOPUS:105022262326

SN - 0003-2654

VL - 150

SP - 5558

EP - 5567

JO - Analyst

JF - Analyst

IS - 24

ER -

Barium ion sensing with IPG K⁺ molecular probes

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