Fast, precise and cloning-free knock-in of reporter sequences in vivo with high efficiency

Yiran Zhang; Katy Marshall-Phelps; Rafael Góis de Almeida

doi:10.1242/dev.201323

Fast, precise and cloning-free knock-in of reporter sequences in vivo with high efficiency

Yiran Zhang, Katy Marshall-Phelps, Rafael Góis de Almeida

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

Abstract

Targeted knock-in of fluorescent reporters enables powerful gene and protein analyses in a physiological context. However, precise integration of long sequences remains challenging in vivo. Here, we demonstrate cloning-free and precise reporter knock-in into zebrafish genes, using PCR-generated templates for homology-directed repair with short homology arms (PCR tagging). Our novel knock-in reporter lines of vesicle-associated membrane protein (vamp) zebrafish homologues reveal subcellular complexity in this protein family. Our approach enables fast and efficient reporter integration in the zebrafish genome (in 10-40% of injected embryos) and rapid generation of stable germline-transmitting lines.

Original language	English
Journal	Development
Volume	150
Issue number	12
DOIs	https://doi.org/10.1242/dev.201323
Publication status	Published - 29 Jun 2023

Keywords / Materials (for Non-textual outputs)

HDR
homology-directed repair (HDR)
Knock-in
Neuron
Synaptobrevin
Vamp
Zebrafish

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10.1242/dev.201323Licence: Creative Commons: Attribution (CC-BY)

Fast, precise and cloning-free knock-in of reporter sequences in vivo with high efficiencyFinal published version, 6.3 MBLicence: Creative Commons: Attribution (CC-BY)

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title = "Fast, precise and cloning-free knock-in of reporter sequences in vivo with high efficiency",

abstract = "Targeted knock-in of fluorescent reporters enables powerful gene and protein analyses in a physiological context. However, precise integration of long sequences remains challenging in vivo. Here, we demonstrate cloning-free and precise reporter knock-in into zebrafish genes, using PCR-generated templates for homology-directed repair with short homology arms (PCR tagging). Our novel knock-in reporter lines of vesicle-associated membrane protein (vamp) zebrafish homologues reveal subcellular complexity in this protein family. Our approach enables fast and efficient reporter integration in the zebrafish genome (in 10-40% of injected embryos) and rapid generation of stable germline-transmitting lines.",

keywords = "HDR, homology-directed repair (HDR), Knock-in, Neuron, Synaptobrevin, Vamp, Zebrafish",

author = "Yiran Zhang and Katy Marshall-Phelps and {G{\'o}is de Almeida}, Rafael",

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T1 - Fast, precise and cloning-free knock-in of reporter sequences in vivo with high efficiency

AU - Zhang, Yiran

AU - Marshall-Phelps, Katy

AU - Góis de Almeida, Rafael

PY - 2023/6/29

Y1 - 2023/6/29

N2 - Targeted knock-in of fluorescent reporters enables powerful gene and protein analyses in a physiological context. However, precise integration of long sequences remains challenging in vivo. Here, we demonstrate cloning-free and precise reporter knock-in into zebrafish genes, using PCR-generated templates for homology-directed repair with short homology arms (PCR tagging). Our novel knock-in reporter lines of vesicle-associated membrane protein (vamp) zebrafish homologues reveal subcellular complexity in this protein family. Our approach enables fast and efficient reporter integration in the zebrafish genome (in 10-40% of injected embryos) and rapid generation of stable germline-transmitting lines.

AB - Targeted knock-in of fluorescent reporters enables powerful gene and protein analyses in a physiological context. However, precise integration of long sequences remains challenging in vivo. Here, we demonstrate cloning-free and precise reporter knock-in into zebrafish genes, using PCR-generated templates for homology-directed repair with short homology arms (PCR tagging). Our novel knock-in reporter lines of vesicle-associated membrane protein (vamp) zebrafish homologues reveal subcellular complexity in this protein family. Our approach enables fast and efficient reporter integration in the zebrafish genome (in 10-40% of injected embryos) and rapid generation of stable germline-transmitting lines.

KW - HDR

KW - homology-directed repair (HDR)

KW - Knock-in

KW - Neuron

KW - Synaptobrevin

KW - Vamp

KW - Zebrafish

U2 - 10.1242/dev.201323

DO - 10.1242/dev.201323

M3 - Article

SN - 0950-1991

VL - 150

JO - Development

JF - Development

IS - 12

ER -

Fast, precise and cloning-free knock-in of reporter sequences in vivo with high efficiency

Abstract

Keywords / Materials (for Non-textual outputs)

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