A non-canonical initiation site is required for efficient translation of the dendritically localized Shank1 mRNA

Katrin Falley; Janin Ölschläger-Schütt; Friedrich Buck; Dietmar Richter; Carlo Sala; Jürgen Bockmann; Stefan Kindler; Hans-Jürgen Kreienkamp

doi:10.1371/journal.pone.0088518

A non-canonical initiation site is required for efficient translation of the dendritically localized Shank1 mRNA

Standard

A non-canonical initiation site is required for efficient translation of the dendritically localized Shank1 mRNA. / Falley, Katrin; Ölschläger-Schütt, Janin; Buck, Friedrich; Richter, Dietmar; Sala, Carlo; Bockmann, Jürgen; Kindler, Stefan ; Kreienkamp, Hans-Jürgen.

in: PLOS ONE, Jahrgang 9, Nr. 2, 01.01.2014, S. e88518.

Publikationen: SCORING: Beitrag in Fachzeitschrift/Zeitung › SCORING: Zeitschriftenaufsatz › Forschung › Begutachtung

Harvard

Falley, K, Ölschläger-Schütt, J, Buck, F, Richter, D, Sala, C, Bockmann, J, Kindler, S & Kreienkamp, H-J 2014, 'A non-canonical initiation site is required for efficient translation of the dendritically localized Shank1 mRNA', PLOS ONE, Jg. 9, Nr. 2, S. e88518. https://doi.org/10.1371/journal.pone.0088518

APA

Falley, K., Ölschläger-Schütt, J., Buck, F., Richter, D., Sala, C., Bockmann, J., Kindler, S., & Kreienkamp, H-J. (2014). A non-canonical initiation site is required for efficient translation of the dendritically localized Shank1 mRNA. PLOS ONE, 9(2), e88518. https://doi.org/10.1371/journal.pone.0088518

Vancouver

Falley K, Ölschläger-Schütt J, Buck F, Richter D, Sala C, Bockmann J et al. A non-canonical initiation site is required for efficient translation of the dendritically localized Shank1 mRNA. PLOS ONE. 2014 Jan 1;9(2):e88518. https://doi.org/10.1371/journal.pone.0088518

Bibtex

@article{19b8c158cc9a44f4a5950b76147ad56c,

title = "A non-canonical initiation site is required for efficient translation of the dendritically localized Shank1 mRNA",

abstract = "Local protein synthesis in dendrites enables neurons to selectively change the protein complement of individual postsynaptic sites. Though it is generally assumed that this mechanism requires tight translational control of dendritically transported mRNAs, it is unclear how translation of dendritic mRNAs is regulated. We have analyzed here translational control elements of the dendritically localized mRNA coding for the postsynaptic scaffold protein Shank1. In its 5' region, the human Shank1 mRNA exhibits two alternative translation initiation sites (AUG⁺¹ and AUG⁺²¹⁴), three canonical upstream open reading frames (uORFs1-3) and a high GC content. In reporter assays, fragments of the 5'UTR with high GC content inhibit translation, suggesting a contribution of secondary structures. uORF3 is most relevant to translation control as it overlaps with the first in frame start codon (AUG⁺¹), directing translation initiation to the second in frame start codon (AUG⁺²¹⁴). Surprisingly, our analysis points to an additional uORF initiated at a non-canonical ACG start codon. Mutation of this start site leads to an almost complete loss of translation initiation at AUG⁺¹, demonstrating that this unconventional uORF is required for Shank1 synthesis. Our data identify a novel mechanism whereby initiation at a non-canonical site allows for translation of the main Shank1 ORF despite a highly structured 5'UTR.",

author = "Katrin Falley and Janin {\"O}lschl{\"a}ger-Sch{\"u}tt and Friedrich Buck and Dietmar Richter and Carlo Sala and J{\"u}rgen Bockmann and Stefan Kindler and Hans-J{\"u}rgen Kreienkamp",

year = "2014",

month = jan,

day = "1",

doi = "10.1371/journal.pone.0088518",

language = "English",

volume = "9",

pages = "e88518",

journal = "PLOS ONE",

issn = "1932-6203",

publisher = "Public Library of Science",

number = "2",

}

RIS

TY - JOUR

T1 - A non-canonical initiation site is required for efficient translation of the dendritically localized Shank1 mRNA

AU - Falley, Katrin

AU - Ölschläger-Schütt, Janin

AU - Buck, Friedrich

AU - Richter, Dietmar

AU - Sala, Carlo

AU - Bockmann, Jürgen

AU - Kindler, Stefan

AU - Kreienkamp, Hans-Jürgen

PY - 2014/1/1

Y1 - 2014/1/1

N2 - Local protein synthesis in dendrites enables neurons to selectively change the protein complement of individual postsynaptic sites. Though it is generally assumed that this mechanism requires tight translational control of dendritically transported mRNAs, it is unclear how translation of dendritic mRNAs is regulated. We have analyzed here translational control elements of the dendritically localized mRNA coding for the postsynaptic scaffold protein Shank1. In its 5' region, the human Shank1 mRNA exhibits two alternative translation initiation sites (AUG⁺¹ and AUG⁺²¹⁴), three canonical upstream open reading frames (uORFs1-3) and a high GC content. In reporter assays, fragments of the 5'UTR with high GC content inhibit translation, suggesting a contribution of secondary structures. uORF3 is most relevant to translation control as it overlaps with the first in frame start codon (AUG⁺¹), directing translation initiation to the second in frame start codon (AUG⁺²¹⁴). Surprisingly, our analysis points to an additional uORF initiated at a non-canonical ACG start codon. Mutation of this start site leads to an almost complete loss of translation initiation at AUG⁺¹, demonstrating that this unconventional uORF is required for Shank1 synthesis. Our data identify a novel mechanism whereby initiation at a non-canonical site allows for translation of the main Shank1 ORF despite a highly structured 5'UTR.

AB - Local protein synthesis in dendrites enables neurons to selectively change the protein complement of individual postsynaptic sites. Though it is generally assumed that this mechanism requires tight translational control of dendritically transported mRNAs, it is unclear how translation of dendritic mRNAs is regulated. We have analyzed here translational control elements of the dendritically localized mRNA coding for the postsynaptic scaffold protein Shank1. In its 5' region, the human Shank1 mRNA exhibits two alternative translation initiation sites (AUG⁺¹ and AUG⁺²¹⁴), three canonical upstream open reading frames (uORFs1-3) and a high GC content. In reporter assays, fragments of the 5'UTR with high GC content inhibit translation, suggesting a contribution of secondary structures. uORF3 is most relevant to translation control as it overlaps with the first in frame start codon (AUG⁺¹), directing translation initiation to the second in frame start codon (AUG⁺²¹⁴). Surprisingly, our analysis points to an additional uORF initiated at a non-canonical ACG start codon. Mutation of this start site leads to an almost complete loss of translation initiation at AUG⁺¹, demonstrating that this unconventional uORF is required for Shank1 synthesis. Our data identify a novel mechanism whereby initiation at a non-canonical site allows for translation of the main Shank1 ORF despite a highly structured 5'UTR.

U2 - 10.1371/journal.pone.0088518

DO - 10.1371/journal.pone.0088518

M3 - SCORING: Journal article

C2 - 24533096

VL - 9

SP - e88518

JO - PLOS ONE

JF - PLOS ONE

SN - 1932-6203

IS - 2

ER -