[HTML][HTML] Dnmt1-independent CG methylation contributes to nucleosome positioning in diverse eukaryotes
JT Huff, D Zilberman - Cell, 2014 - cell.com
Dnmt1 epigenetically propagates symmetrical CG methylation in many eukaryotes. Their
genomes are typically depleted of CG dinucleotides because of imperfect repair of …
genomes are typically depleted of CG dinucleotides because of imperfect repair of …
[引用][C] Dnmt1-Independent CG Methylation Contributes to Nucleosome Positioning in Diverse Eukaryotes
JT Huff, D Zilberman - Cell, 2014 - cir.nii.ac.jp
Dnmt1-Independent CG Methylation Contributes to Nucleosome Positioning in Diverse
Eukaryotes | CiNii Research CiNii 国立情報学研究所 学術情報ナビゲータ[サイニィ] 詳細へ移動 検索 …
Eukaryotes | CiNii Research CiNii 国立情報学研究所 学術情報ナビゲータ[サイニィ] 詳細へ移動 検索 …
[HTML][HTML] Dnmt1-Independent CG Methylation Contributes to Nucleosome Positioning in Diverse Eukaryotes
JT Huff, D Zilberman - Cell, 2014 - ncbi.nlm.nih.gov
Dnmt1 epigenetically propagates symmetrical CG methylation in many eukaryotes. Their
genomes are typically depleted of CG dinucleotides, because of imperfect repair of …
genomes are typically depleted of CG dinucleotides, because of imperfect repair of …
[PDF][PDF] Dnmt1-Independent CG Methylation Contributes to Nucleosome Positioning in Diverse Eukaryotes
JT Huff, D Zilberman - Cell, 2014 - zilbermanlab.net
Dnmt1 epigenetically propagates symmetrical CG methylation in many eukaryotes. Their
genomes are typically depleted of CG dinucleotides because of imperfect repair of …
genomes are typically depleted of CG dinucleotides because of imperfect repair of …
[HTML][HTML] Dnmt1-Independent CG Methylation Contributes to Nucleosome Positioning in Diverse Eukaryotes
JT Huff, D Zilberman - Cell, 2014 - Elsevier
Dnmt1 epigenetically propagates symmetrical CG methylation in many eukaryotes. Their
genomes are typically depleted of CG dinucleotides because of imperfect repair of …
genomes are typically depleted of CG dinucleotides because of imperfect repair of …
[HTML][HTML] Dnmt1-Independent CG Methylation Contributes to Nucleosome Positioning in Diverse Eukaryotes
JT Huff, D Zilberman - Cell, 2014 - cell.com
Dnmt1 epigenetically propagates symmetrical CG methylation in many eukaryotes. Their
genomes are typically depleted of CG dinucleotides because of imperfect repair of …
genomes are typically depleted of CG dinucleotides because of imperfect repair of …
Dnmt1-independent CG methylation contributes to nucleosome positioning in diverse eukaryotes
JT Huff, D Zilberman - Cell, 2014 - research-explorer.ista.ac.at
Dnmt1 epigenetically propagates symmetrical CG methylation in many eukaryotes. Their
genomes are typically depleted of CG dinucleotides because of imperfect repair of …
genomes are typically depleted of CG dinucleotides because of imperfect repair of …
Dnmt1-independent CG methylation contributes to nucleosome positioning in diverse eukaryotes.
JT Huff, D Zilberman - Cell, 2014 - europepmc.org
Dnmt1 epigenetically propagates symmetrical CG methylation in many eukaryotes. Their
genomes are typically depleted of CG dinucleotides, because of imperfect repair of …
genomes are typically depleted of CG dinucleotides, because of imperfect repair of …
Dnmt1-Independent CG Methylation Contributes to Nucleosome Positioning in Diverse Eukaryotes
JT Huff, D Zilberman - Cell, 2014 - infona.pl
Dnmt1 epigenetically propagates symmetrical CG methylation in many eukaryotes. Their
genomes are typically depleted of CG dinucleotides because of imperfect repair of …
genomes are typically depleted of CG dinucleotides because of imperfect repair of …
Dnmt1-independent CG methylation contributes to nucleosome positioning in diverse eukaryotes
JT Huff, D Zilberman - Cell, 2014 - pubmed.ncbi.nlm.nih.gov
Dnmt1 epigenetically propagates symmetrical CG methylation in many eukaryotes. Their
genomes are typically depleted of CG dinucleotides because of imperfect repair of …
genomes are typically depleted of CG dinucleotides because of imperfect repair of …