生物種
|
リソース名
|
RRC ID
|
タイトル
|
ジャーナル
|
公開日
|
外部リンク
|
一般微生物
|
JCM12559
|
60297
|
Eukaryotic Acquisition of a Bacterial Operon.
|
Cell |
2019-3-7 |
Pubmed
Full text
|
遺伝子材料
|
pUC4KrB1 (RDB17943)
,
pUC4KrA1 (RDB17944)
,
pUC4KrA1Hg (RDB17945)
|
58471
|
Occurrence of randomly recombined functional 16S rRNA genes in Thermus thermophilus suggests genetic interoperability and promiscuity of bacterial 16S rRNAs.
|
Sci Rep |
2019-8-2 |
Pubmed
Full text
|
原核生物(大腸菌)
|
|
53781
|
Natural Escherichia coli strains undergo cell-to-cell plasmid transformation.
|
Biochem Biophys Res Commun |
2016-12-2 |
Pubmed
Full text
|
原核生物(大腸菌)
,
酵母
|
ME8568(HB101)
,
CV-63(SY327(Lambdapir))
,
BYP7574
,
BYP7575
,
BYP7576
,
BYP7577
|
35597
|
Trans-kingdom horizontal DNA transfer from bacteria to yeast is highly plastic due to natural polymorphisms in auxiliary nonessential recipient genes.
|
PLoS One |
2013-1-1 |
Pubmed
Full text
|
原核生物(大腸菌)
|
pSY510
,
pGBM1
,
Keio collection
|
35509
|
Genome-wide screen for Escherichia coli genes involved in repressing cell-to-cell transfer of non-conjugative plasmids.
|
Biochem Biophys Res Commun |
2012-11-30 |
Pubmed
Full text
|
原核生物(大腸菌)
|
ME8788(CAG18439)
,
ME9062(BW25113)
,
Keio collection
,
pSY510
,
pGBM1
|
35443
|
Genome-wide screening of Escherichia coli genes involved in execution and promotion of cell-to-cell transfer of non-conjugative plasmids: rodZ (yfgA) is essential for plasmid acceptance in recipient cells.
|
Biochem Biophys Res Commun |
2012-4-27 |
Pubmed
Full text
|
実験動物マウス
|
RBRC00823
|
30211
|
Selection of rodent species appropriate for mtDNA transfer to generate transmitochondrial mito-mice expressing mitochondrial respiration defects.
|
Exp Anim |
2014-1-1 |
Pubmed
Full text
|
藻類
|
NIES-88
,
NIES-89
,
NIES-90
,
NIES-102
,
NIES-107
,
NIES-103
|
21627
|
Evidence for recombination in the microcystin synthetase (mcy) genes of toxic cyanobacteria Microcystis spp.
|
J Mol Evol |
2004-6-1 |
Pubmed
Full text
|
情報
|
E.coli
|
1827
|
Gene cluster analysis method identifies horizontally transferred genes with high reliability and indicates that they provide the main mechanism of operon gain in 8 species of gamma-Proteobacteria.
|
Mol Biol Evol |
2007-3-1 |
Pubmed
Full text
|