Molecular characterisation of a calmodulin gene, VcCaM1, that is differentially expressed under aluminium stress in highbush blueberry
C Inostroza‐Blancheteau, F Aquea, R Loyola… - Plant …, 2013 - Wiley Online Library
Calmodulin (CaM), a small acidic protein, is one of the best characterised Ca2+ sensors in
eukaryotes. This Ca2+‐regulated protein plays a critical role in decoding and transducing …
eukaryotes. This Ca2+‐regulated protein plays a critical role in decoding and transducing …
Molecular characterisation of a calmodulin gene, VcCaM1, that is differentially expressed under aluminium stress in highbush blueberry
C Inostroza-Blancheteau, F Aquea, R Loyola… - Plant …, 2013 - ui.adsabs.harvard.edu
Calmodulin (CaM), a small acidic protein, is one of the best characterised Ca2+ sensors in
eukaryotes. This Ca2+‑regulated protein plays a critical role in decoding and transducing …
eukaryotes. This Ca2+‑regulated protein plays a critical role in decoding and transducing …
Molecular characterisation of a calmodulin gene, VcCaM1, that is differentially expressed under aluminium stress in highbush blueberry
C Inostroza-Blancheteau, F Aquea… - Plant biology …, 2013 - pubmed.ncbi.nlm.nih.gov
Calmodulin (CaM), a small acidic protein, is one of the best characterised Ca (2+) sensors in
eukaryotes. This Ca (2+)-regulated protein plays a critical role in decoding and transducing …
eukaryotes. This Ca (2+)-regulated protein plays a critical role in decoding and transducing …
Molecular characterisation of a calmodulin gene, VcCaM1, that is differentially expressed under aluminium stress in highbush blueberry
C Inostroza Blancheteau, F Aquea, R Loyola, J Slovin… - 2021 - repositoriodigital.uct.cl
Calmodulin (CaM), a small acidic protein, is one of the best characterised Ca2+ sensors in
eukaryotes. This Ca2+-regulated protein plays a critical role in decoding and transducing …
eukaryotes. This Ca2+-regulated protein plays a critical role in decoding and transducing …
Molecular characterisation of a calmodulin gene, VcCaM1, that is differentially expressed under aluminium stress in highbush blueberry
C Inostroza-Blancheteau, F Aquea, R Loyola, J Slovin… - Plant Biology, 2013 - hero.epa.gov
Calmodulin (CaM), a small acidic protein, is one of the best characterised Ca (2+) sensors in
eukaryotes. This Ca (2+)-regulated protein plays a critical role in decoding and transducing …
eukaryotes. This Ca (2+)-regulated protein plays a critical role in decoding and transducing …
Molecular characterisation of a calmodulin gene, VcCaM1, that is differentially expressed under aluminium stress in highbush blueberry
C Inostroza-Blancheteau, F Aquea… - Plant …, 2013 - research-repository.uwa.edu.au
Calmodulin (CaM), a small acidic protein, is one of the best characterised Ca2+ sensors in
eukaryotes. This Ca2+-regulated protein plays a critical role in decoding and transducing …
eukaryotes. This Ca2+-regulated protein plays a critical role in decoding and transducing …
Molecular characterisation of a calmodulin gene, VcCaM1, that is differentially expressed under aluminium stress in highbush blueberry.
C Inostroza-Blancheteau, F Aquea, R Loyola, J Slovin… - 2013 - cabidigitallibrary.org
Calmodulin (CaM), a small acidic protein, is one of the best characterised Ca2+ sensors in
eukaryotes. This Ca2+-regulated protein plays a critical role in decoding and transducing …
eukaryotes. This Ca2+-regulated protein plays a critical role in decoding and transducing …
Molecular characterisation of a calmodulin gene, VcCaM1, that is differentially expressed under aluminium stress in highbush blueberry
C Inostroza‐Blancheteau, F Aquea, R Loyola, J Slovin… - Plant Biology, 2013 - infona.pl
Calmodulin (CaM), a small acidic protein, is one of the best characterised Ca 2+ sensors in
eukaryotes. This Ca 2+‐regulated protein plays a critical role in decoding and transducing …
eukaryotes. This Ca 2+‐regulated protein plays a critical role in decoding and transducing …
Molecular characterization of a calmodulin gene, VcCaM1, that is differentially expressed under aluminum stress in highbush blueberry
C Inostrozablancheteau, F Aquea, R Loyola, JP Slovin - Plant Biology, 2013 - ars.usda.gov
Blueberry is often grown in acidic and poorly drained soils that render plants susceptible to
aluminum toxicity. Aluminum toxicity results in poor plant growth, and in extreme cases, plant …
aluminum toxicity. Aluminum toxicity results in poor plant growth, and in extreme cases, plant …
Molecular characterisation of a calmodulin gene, VcCaM1, that is differentially expressed under aluminium stress in highbush blueberry.
C Inostroza-Blancheteau, F Aquea… - Plant Biology …, 2013 - europepmc.org
Calmodulin (CaM), a small acidic protein, is one of the best characterised Ca (2+) sensors in
eukaryotes. This Ca (2+)-regulated protein plays a critical role in decoding and transducing …
eukaryotes. This Ca (2+)-regulated protein plays a critical role in decoding and transducing …