Giang T H Vu
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Explore the profile of Giang T H Vu including associated specialties, affiliations and a list of published articles.
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17
Citations
342
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Recent Articles
1.
Vu G, Schmutzer T, Bull F, Cao H, Fuchs J, Tran T, et al.
Plant Genome
. 2020 Nov;
8(3):eplantgenome2015.04.0021.
PMID: 33228273
The C-value paradox remains incompletely resolved after >40 yr and is exemplified by 2,350-fold variation in genome sizes of flowering plants. The carnivorous Lentibulariaceae genus Genlisea, displaying a 25-fold range...
2.
Finke A, Mandakova T, Nawaz K, Vu G, Novak P, Macas J, et al.
Plant J
. 2019 May;
99(6):1066-1079.
PMID: 31074166
Repetitive sequences are ubiquitous components of all eukaryotic genomes. They contribute to genome evolution and the regulation of gene transcription. However, the uncontrolled activity of repetitive sequences can negatively affect...
3.
Vu G, Cao H, Fauser F, Reiss B, Puchta H, Schubert I
Plant J
. 2017 Jul;
92(1):57-67.
PMID: 28696528
The possibility to predict the outcome of targeted DNA double-stranded break (DSB) repair would be desirable for genome editing. Furthermore the consequences of mis-repair of potentially cell-lethal DSBs and the...
4.
Deletion-bias in DNA double-strand break repair differentially contributes to plant genome shrinkage
Vu G, Cao H, Reiss B, Schubert I
New Phytol
. 2017 Mar;
214(4):1712-1721.
PMID: 28245065
In order to prevent genome instability, cells need to be protected by a number of repair mechanisms, including DNA double-strand break (DSB) repair. The extent to which DSB repair, biased...
5.
Cao H, Wang W, Le H, Vu G
Int J Genomics
. 2017 Jan;
2016:5078796.
PMID: 28097123
Genome editing with engineered nucleases enabling site-directed sequence modifications bears a great potential for advanced plant breeding and crop protection. Remarkably, the RNA-guided endonuclease technology (RGEN) based on the clustered...
6.
Schubert I, Vu G
Trends Plant Sci
. 2016 Jul;
21(9):749-757.
PMID: 27427334
The reason why the DNA content, chromosome number and shape, and gene content of eukaryotic genomes vary independently remains a matter of speculation. The same is true for the questions...
7.
Tran T, Cao H, Jovtchev G, Neumann P, Novak P, Fojtova M, et al.
Plant J
. 2015 Oct;
84(6):1087-99.
PMID: 26485466
Linear chromosomes of eukaryotic organisms invariably possess centromeres and telomeres to ensure proper chromosome segregation during nuclear divisions and to protect the chromosome ends from deterioration and fusion, respectively. While...
8.
Tran T, Cao H, Jovtchev G, Novak P, Vu G, Macas J, et al.
Front Plant Sci
. 2015 Sep;
6:613.
PMID: 26347752
The monophyletic carnivorous genus Genlisea (Lentibulariaceae) is characterized by a bi-directional genome size evolution resulting in a 25-fold difference in nuclear DNA content. This is one of the largest ranges...
9.
Cao H, Schmutzer T, Scholz U, Pecinka A, Schubert I, Vu G
Front Microbiol
. 2015 Aug;
6:526.
PMID: 26236284
In the carnivorous plant genus Genlisea a unique lobster pot trapping mechanism supplements nutrition in nutrient-poor habitats. A wide spectrum of microbes frequently occurs in Genlisea's leaf-derived traps without clear...
10.
Majerova E, Mandakova T, Vu G, Fajkus J, Lysak M, Fojtova M
Front Plant Sci
. 2014 Nov;
5:593.
PMID: 25408695
Epigenetic mechanisms are involved in regulation of crucial cellular processes in eukaryotic organisms. Data on the epigenetic features of plant telomeres and their epigenetic regulation were published mostly for Arabidopsis...