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Comparative Plastid Genomics of Non-Photosynthetic Chrysophytes: Genome Reduction and Compaction
Jong Im Kim, Minseok Jeong,
John M. Archibald
, Woongghi Shin
科研成果
:
期刊稿件
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文章
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同行评审
9
引用 (Scopus)
综述
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探究 'Comparative Plastid Genomics of Non-Photosynthetic Chrysophytes: Genome Reduction and Compaction' 的科研主题。它们共同构成独一无二的指纹。
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Keyphrases
Compaction
100%
Plastid Genomics
100%
Non-photosynthetic Vegetation
100%
Genome Reduction
100%
Chrysophytes
100%
Plastid Genome
83%
Gene Loss
33%
Aquatic Environment
16%
Photosynthesis
16%
Protein-coding Genes
16%
Genetic Structure
16%
Heterotrophic
16%
Flagellates
16%
Transfer RNA (tRNA)
16%
Evolutionary History
16%
Structure Gene
16%
Gene Rearrangement
16%
Gene Content
16%
Loss of Photosynthesis
16%
Pigmentation
16%
Soil Environment
16%
Organelle Genome
16%
Leucoplast
16%
Housekeeping Genes
16%
Gene Fragments
16%
Lineage-specific Genes
16%
Gene Duplication
16%
Ribosomal RNA
16%
Eukaryotic Microbes
16%
Loss Reduction
16%
Photosynthetic Capacity
16%
Inverted Repeats
16%
Cell Surface
16%
Carbon Fixation
16%
Agricultural and Biological Sciences
Plastid
100%
Plastid Genome
100%
Spumella
100%
Photosystem
40%
Feeds
20%
Microorganism
20%
Evolution
20%
Lineages
20%
Flagellate
20%
Carbon Fixation
20%
Pigmentation
20%
Organelle Genome
20%
Inverted Repeat
20%
Leucoplast
20%
Biochemistry, Genetics and Molecular Biology
Plastid
100%
Chrysophyta
100%
Plastid Genome
83%
Photosystem
33%
Gene Loss
33%
Surface Property
16%
Microorganism
16%
Gene Rearrangement
16%
Pigmentation
16%
Genetic Structure
16%
Carbon Fixation
16%
Housekeeping Gene
16%
Inverted Repeat
16%
Flagellate
16%
Gene Duplication
16%
Genomic Structure
16%
Immunology and Microbiology
Plastid
100%
Chrysophyta
100%
Plastid Genome
83%
Gene Loss
33%
Photosynthesis
33%
Microorganism
16%
Lineages
16%
Flagellate
16%
Inverted Repeat
16%
Gene Duplication
16%
Pigmentation
16%
Cell Surface
16%
Carbon Fixation
16%
Housekeeping Gene
16%
Gene Rearrangement
16%