Jacob Eriksen
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Explore the profile of Jacob Eriksen including associated specialties, affiliations and a list of published articles.
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24
Citations
1026
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Recent Articles
1.
Jain S, Yee A, Maas J, Gierok S, Xu H, Stansil J, et al.
Proc Natl Acad Sci U S A
. 2023 Oct;
120(42):e2309843120.
PMID: 37812725
The burst firing of midbrain dopamine neurons releases a phasic dopamine signal that mediates reinforcement learning. At many synapses, however, high firing rates deplete synaptic vesicles (SVs), resulting in synaptic...
2.
Jain S, Yee A, Maas J, Gierok S, Xu H, Stansil J, et al.
bioRxiv
. 2023 Aug;
PMID: 37609166
The burst firing of midbrain dopamine neurons releases a phasic dopamine signal that mediates reinforcement learning. At many synapses, however, high firing rates deplete synaptic vesicles (SVs), resulting in synaptic...
3.
Batarni S, Nayak N, Chang A, Li F, Hareendranath S, Zhou L, et al.
J Biol Chem
. 2023 Mar;
299(5):104646.
PMID: 36965620
The solute carrier 17 family transports diverse organic anions using two distinct modes of coupling to a source of energy. Transporters that package glutamate and nucleotide into secretory vesicles for...
4.
Li F, Eriksen J, Finer-Moore J, Stroud R, Edwards R
Curr Opin Struct Biol
. 2022 Jun;
75:102399.
PMID: 35660266
Originally identified as transporters for inorganic phosphate, solute carrier 17 (SLC17) family proteins subserve diverse physiological roles. The vesicular glutamate transporters (VGLUTs) package the principal excitatory neurotransmitter glutamate into synaptic...
5.
Eriksen J, Li F, Stroud R, Edwards R
Biochemistry
. 2021 Jul;
60(32):2463-2470.
PMID: 34319067
The role of glutamate in excitatory neurotransmission depends on its transport into synaptic vesicles by the vesicular glutamate transporters (VGLUTs). The three VGLUT isoforms exhibit a complementary distribution in the...
6.
Li F, Eriksen J, Finer-Moore J, Chang R, Nguyen P, Bowen A, et al.
Science
. 2020 May;
368(6493):893-897.
PMID: 32439795
Synaptic vesicles accumulate neurotransmitters, enabling the quantal release by exocytosis that underlies synaptic transmission. Specific neurotransmitter transporters are responsible for this activity and therefore are essential for brain function. The...
7.
Eriksen J, Li F, Edwards R
Biochim Biophys Acta Biomembr
. 2020 Mar;
1862(12):183259.
PMID: 32147354
The transport of classical neurotransmitters into synaptic vesicles generally relies on a H electrochemical gradient (∆μ). Synaptic vesicle uptake of glutamate depends primarily on the electrical component ∆ψ as the...
8.
Dickinson M, Myasnikov A, Eriksen J, Poweleit N, Stroud R
Proc Natl Acad Sci U S A
. 2020 Jan;
117(4):1988-1993.
PMID: 31924746
Voltage-gated ion channels endow membranes with excitability and the means to propagate action potentials that form the basis of all neuronal signaling. We determined the structure of a voltage-gated sodium...
9.
Leano J, Batarni S, Eriksen J, Juge N, Pak J, Kimura-Someya T, et al.
PLoS Biol
. 2019 May;
17(5):e3000260.
PMID: 31083648
Members of the solute carrier 17 (SLC17) family use divergent mechanisms to concentrate organic anions. Membrane potential drives uptake of the principal excitatory neurotransmitter glutamate into synaptic vesicles, whereas closely...
10.
Silm K, Yang J, Marcott P, Asensio C, Eriksen J, Guthrie D, et al.
Neuron
. 2019 Apr;
102(4):786-800.e5.
PMID: 31003725
In contrast to temporal coding by synaptically acting neurotransmitters such as glutamate, neuromodulators such as monoamines signal changes in firing rate. The two modes of signaling have been thought to...