Fabio Pasin
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Explore the profile of Fabio Pasin including associated specialties, affiliations and a list of published articles.
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Articles
22
Citations
286
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Recent Articles
1.
Uranga M, Martin-Hernandez A, De Storme N, Pasin F
Front Bioeng Biotechnol
. 2024 Oct;
12:1483857.
PMID: 39479297
CRISPR-Cas technologies contribute to enhancing our understanding of plant gene functions, and to the precise breeding of crop traits. Here, we review the latest progress in plant genome editing, focusing...
2.
Pasin F, Uranga M, Charudattan R, Kwon C
Hortic Res
. 2024 Sep;
11(9):uhae205.
PMID: 39286357
Our knowledge of crop domestication, genomics, and of the plant virosphere unevenly represents the taxonomic distribution of the global biodiversity, and, as we show here, is significantly enriched for the...
3.
Uranga M, Aragones V, Garcia A, Mirabel S, Gianoglio S, Presa S, et al.
Hortic Res
. 2024 Jun;
11(1):uhad279.
PMID: 38895601
Virus-induced genome editing (VIGE) leverages viral vectors to deliver CRISPR-Cas components into plants for robust and flexible trait engineering. We describe here a VIGE approach applying an RNA viral vector...
4.
Yue J, Lu Y, Sun Z, Guo Y, Leon D, Pasin F, et al.
Plant Signal Behav
. 2023 May;
18(1):2214760.
PMID: 37210738
Methyltransferase (MTase) enzymes catalyze the addition of a methyl group to a variety of biological substrates. MTase-like (METTL) proteins are Class I MTases whose enzymatic activities contribute to the epigenetic...
5.
Daros J, Pasin F, Merwaiss F
Mol Plant
. 2023 Mar;
16(4):660-661.
PMID: 36950734
No abstract available.
6.
Uranga M, Aragones V, Daros J, Pasin F
STAR Protoc
. 2023 Feb;
4(1):102091.
PMID: 36853698
Viral vectors hold enormous potential for genome editing in plants as transient delivery vehicles of CRISPR-Cas components. Here, we describe a protocol to assemble plant viral vectors for single-guide RNA...
7.
Pasin F
STAR Protoc
. 2022 Sep;
3(4):101716.
PMID: 36149792
Infectious clone technology is universally applied for biological characterization and engineering of viruses. This protocol describes procedures that implement synthetic biology advances for streamlined assembly of virus infectious clones. Here,...
8.
Yue J, Wei Y, Sun Z, Chen Y, Wei X, Wang H, et al.
Mol Plant Pathol
. 2022 Jun;
23(10):1555-1564.
PMID: 35700092
Proteins of the alkylation B (AlkB) superfamily show RNA demethylase activity removing methyl adducts from N -methyladenosine (m A). m A is a reversible epigenetic mark of RNA that regulates...
9.
Aragones V, Aliaga F, Pasin F, Daros J
Biotechnol J
. 2022 Mar;
17(7):e2100504.
PMID: 35332696
Viral vectors provide a quick and effective way to express exogenous sequences in eukaryotic cells and to engineer eukaryotic genomes through the delivery of CRISPR/Cas components. Here, we present JoinTRV,...
10.
Pasin F, Daros J, Tzanetakis I
FEMS Microbiol Rev
. 2022 Feb;
46(4).
PMID: 35195244
Potyviridae, the largest family of known RNA viruses (realm Riboviria), belongs to the picorna-like supergroup and has important agricultural and ecological impacts. Potyvirid genomes are translated into polyproteins, which are...