[HTML][HTML] Evidence of mitochondrial DNA in the chloroplast genome of Convallaria keiskei and its subsequent evolution in the Asparagales
DNA transfer between internal organelles such as the nucleus, mitochondrion, and plastid is
a well-known phenomenon in plant evolution, and DNA transfer from the plastid and …
a well-known phenomenon in plant evolution, and DNA transfer from the plastid and …
Evidence of mitochondrial DNA in the chloroplast genome of Convallaria keiskei and its subsequent evolution in the Asparagales
G Raman, S Park, EM Lee, SJ Park - Scientific reports, 2019 - pubmed.ncbi.nlm.nih.gov
DNA transfer between internal organelles such as the nucleus, mitochondrion, and plastid is
a well-known phenomenon in plant evolution, and DNA transfer from the plastid and …
a well-known phenomenon in plant evolution, and DNA transfer from the plastid and …
Evidence of mitochondrial DNA in the chloroplast genome of Convallaria keiskei and its subsequent evolution in the Asparagales
G Raman, S Park, EM Lee, SJ Park - Scientific Reports, 2019 - ui.adsabs.harvard.edu
DNA transfer between internal organelles such as the nucleus, mitochondrion, and plastid is
a well-known phenomenon in plant evolution, and DNA transfer from the plastid and …
a well-known phenomenon in plant evolution, and DNA transfer from the plastid and …
Evidence of mitochondrial DNA in the chloroplast genome of Convallaria keiskei and its subsequent evolution in the Asparagales.
G Raman, S Park, EM Lee - Scientific Reports, 2019 - europepmc.org
DNA transfer between internal organelles such as the nucleus, mitochondrion, and plastid is
a well-known phenomenon in plant evolution, and DNA transfer from the plastid and …
a well-known phenomenon in plant evolution, and DNA transfer from the plastid and …
Evidence of mitochondrial DNA in the chloroplast genome of Convallaria keiskei and its subsequent evolution in the Asparagales.
G Raman, S Park, EM Lee - library.dctabudhabi.ae
DNA transfer between internal organelles such as the nucleus, mitochondrion, and plastid is
a well-known phenomenon in plant evolution, and DNA transfer from the plastid and …
a well-known phenomenon in plant evolution, and DNA transfer from the plastid and …
[HTML][HTML] Evidence of mitochondrial DNA in the chloroplast genome of Convallaria keiskei and its subsequent evolution in the Asparagales
G Raman, S Park, EM Lee, SJ Park - Scientific Reports, 2019 - ncbi.nlm.nih.gov
DNA transfer between internal organelles such as the nucleus, mitochondrion, and plastid is
a well-known phenomenon in plant evolution, and DNA transfer from the plastid and …
a well-known phenomenon in plant evolution, and DNA transfer from the plastid and …
Evidence of mitochondrial DNA in the chloroplast genome of Convallaria keiskei and its subsequent evolution in the Asparagales.
G Raman, S Park, EM Lee, SJ Park - Scientific Reports, 2019 - search.ebscohost.com
DNA transfer between internal organelles such as the nucleus, mitochondrion, and plastid is
a well-known phenomenon in plant evolution, and DNA transfer from the plastid and …
a well-known phenomenon in plant evolution, and DNA transfer from the plastid and …
Evidence of mitochondrial DNA in the chloroplast genome of Convallaria keiskei and its subsequent evolution in the Asparagales.
G Raman, PSJ Park SeongJun, LEM Lee EunMi… - 2019 - cabidigitallibrary.org
DNA transfer between internal organelles such as the nucleus, mitochondrion, and plastid is
a well-known phenomenon in plant evolution, and DNA transfer from the plastid and …
a well-known phenomenon in plant evolution, and DNA transfer from the plastid and …
Evidence of mitochondrial DNA in the chloroplast genome of Convallaria keiskei and its subsequent evolution in the Asparagales.
G Raman, S Park, EM Lee - Scientific Reports, 2019 - europepmc.org
DNA transfer between internal organelles such as the nucleus, mitochondrion, and plastid is
a well-known phenomenon in plant evolution, and DNA transfer from the plastid and …
a well-known phenomenon in plant evolution, and DNA transfer from the plastid and …