[HTML][HTML] High-affinity P2Y2 and low-affinity P2X7 receptor interaction modulates ATP-mediated calcium signaling in murine osteoblasts
The P2 purinergic receptor family implicated in many physiological processes, including
neurotransmission, mechanical adaptation and inflammation, consists of ATP-gated non …
neurotransmission, mechanical adaptation and inflammation, consists of ATP-gated non …
High-affinity P2Y2 and low-affinity P2X7 receptor interaction modulates ATP-mediated calcium signaling in murine osteoblasts
N Mikolajewicz, D Smith… - PLoS computational …, 2021 - pubmed.ncbi.nlm.nih.gov
The P2 purinergic receptor family implicated in many physiological processes, including
neurotransmission, mechanical adaptation and inflammation, consists of ATP-gated non …
neurotransmission, mechanical adaptation and inflammation, consists of ATP-gated non …
High-affinity P2Y2 and low-affinity P2X7 receptor interaction modulates ATP-mediated calcium signaling in murine osteoblasts
N Mikolajewicz, D Smith… - PLoS Computational …, 2021 - search.proquest.com
The P2 purinergic receptor family implicated in many physiological processes, including
neurotransmission, mechanical adaptation and inflammation, consists of ATP-gated non …
neurotransmission, mechanical adaptation and inflammation, consists of ATP-gated non …
High-affinity P2Y2 and low-affinity P2X7 receptor interaction modulates ATP-mediated calcium signaling in murine osteoblasts.
N Mikolajewicz, D Smith, SV Komarova… - Plos Computational …, 2021 - europepmc.org
The P2 purinergic receptor family implicated in many physiological processes, including
neurotransmission, mechanical adaptation and inflammation, consists of ATP-gated non …
neurotransmission, mechanical adaptation and inflammation, consists of ATP-gated non …
High-affinity P2Y. sub. 2 and low-affinity P2X. sub. 7 receptor interaction modulates ATP-mediated calcium signaling in murine osteoblasts.
N Mikolajewicz, D Smith, SV Komarova… - PLoS Computational …, 2021 - go.gale.com
The P2 purinergic receptor family implicated in many physiological processes, including
neurotransmission, mechanical adaptation and inflammation, consists of ATP-gated non …
neurotransmission, mechanical adaptation and inflammation, consists of ATP-gated non …
High-affinity P2Y2 and low-affinity P2X7 receptor interaction modulates ATP-mediated calcium signaling in murine osteoblasts
N Mikolajewicz, D Smith… - PLOS Computational …, 2021 - econpapers.repec.org
The P2 purinergic receptor family implicated in many physiological processes, including
neurotransmission, mechanical adaptation and inflammation, consists of ATP-gated non …
neurotransmission, mechanical adaptation and inflammation, consists of ATP-gated non …
[引用][C] High-affinity P2Y2 and low-affinity P2X7 receptor interaction modulates ATP-mediated calcium signaling in murine osteoblasts
N Mikolajewicz, SV Komarova, D Smith… - PLoS Computational …, 2021 - elibrary.ru
High-affinity P2Y2 and low-affinity P2X7 receptor interaction modulates ATP-mediated calcium signaling in murine osteoblasts.
N Mikolajewicz, D Smith, SV Komarova, A Khadra - 2021 - agris.fao.org
The P2 purinergic receptor family implicated in many physiological processes, including
neurotransmission, mechanical adaptation and inflammation, consists of ATP-gated non …
neurotransmission, mechanical adaptation and inflammation, consists of ATP-gated non …
[PDF][PDF] High-affinity P2Y2 and low-affinity P2X7 receptor interaction modulates ATP-mediated calcium signaling in murine osteoblasts
N Mikolajewicz, D Smith, SV Komarova… - PLoS Comput …, 2021 - scholar.archive.org
The P2 purinergic receptor family implicated in many physiological processes, including
neurotransmission, mechanical adaptation and inflammation, consists of ATP-gated …
neurotransmission, mechanical adaptation and inflammation, consists of ATP-gated …
[HTML][HTML] High-affinity P2Y2 and low-affinity P2X7 receptor interaction modulates ATP-mediated calcium signaling in murine osteoblasts
N Mikolajewicz, D Smith, SV Komarova… - PLoS Computational …, 2021 - ncbi.nlm.nih.gov
The P2 purinergic receptor family implicated in many physiological processes, including
neurotransmission, mechanical adaptation and inflammation, consists of ATP-gated non …
neurotransmission, mechanical adaptation and inflammation, consists of ATP-gated non …