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Biomolecules from living and fossil Miki provide insight into the biological and geological history of the genus, as well as its phylogeny and evolution, population structure and molecular taphonomy. Chemically labile biomolecules such as protein and nucleotide sequences from Hu Cheng have reconfirmed the systematic position of as the sister taxon to Endlicher and J. Buchholz. These three genera form the subfamily Sequoioideae, which is one of the basal groups of the Taxodiaceae-Cupressaceae complex. Relative rate testing based on different gene sequences suggests an evolutionary rate slow down in the Sequoioideae lineage. Non-sequence based molecular studies indicate a low overall genetic diversity and a lack of spatial genetic structure in its native population in southern China. An isolated tree in Paomu, Hunan Province was found to contain both molecular and morphological plesiomorphic characteristics, providing important clues to its evolutionary history. Moreover, given the importance of these data, critical conservation issues are raised regarding the management and preservation of the genus. Molecular and biochemical investigations of ancient biomolecules from well-preserved Tertiary fossil remains reveal the preservation of labile biomolecules such as carbohydrates that are normally absent from the Cenozoic fossil record. Comparative geochemical and SEM analyses of well preserved fossil specimens revealed the sources of these chemically unstable biomolecules and suggests that they may carry important structural functions to support the integrity of plant fossil morphology. These ancient biomolecules from fossil also offer valuable information regarding the environmental factors controlling the preservation of labile biomolecules and possible origins of homologous series of -alk-1-ene/-alkane pairs preserved in the geological record.

Biomolecules from living and fossil Miki provide insight into the biological and geological history of the genus, as well as its phylogeny and evolution, population structure and molecular taphonomy. Chemically labile biomolecules such as protein and nucleotide sequences from Hu Cheng have reconfirmed the systematic position of as the sister taxon to Endlicher and J. Buchholz. These three genera form the subfamily Sequoioideae, which is one of the basal groups of the Taxodiaceae-Cupressaceae complex. Relative rate testing based on different gene sequences suggests an evolutionary rate slow down in the Sequoioideae lineage. Non-sequence based molecular studies indicate a low overall genetic diversity and a lack of spatial genetic structure in its native population in southern China. An isolated tree in Paomu, Hunan Province was found to contain both molecular and morphological plesiomorphic characteristics, providing important clues to its evolutionary history. Moreover, given the importance of these data, critical conservation issues are raised regarding the management and preservation of the genus. Molecular and biochemical investigations of ancient biomolecules from well-preserved Tertiary fossil remains reveal the preservation of labile biomolecules such as carbohydrates that are normally absent from the Cenozoic fossil record. Comparative geochemical and SEM analyses of well preserved fossil specimens revealed the sources of these chemically unstable biomolecules and suggests that they may carry important structural functions to support the integrity of plant fossil morphology. These ancient biomolecules from fossil also offer valuable information regarding the environmental factors controlling the preservation of labile biomolecules and possible origins of homologous series of -alk-1-ene/-alkane pairs preserved in the geological record.

Biomolecules from living and fossil Miki provide insight into the biological and geological history of the genus, as well as its phylogeny and evolution, population structure and molecular taphonomy. Chemically labile biomolecules such as protein and nucleotide sequences from Hu Cheng have reconfirmed the systematic position of as the sister taxon to Endlicher and J. Buchholz. These three genera form the subfamily Sequoioideae, which is one of the basal groups of the Taxodiaceae-Cupressaceae complex. Relative rate testing based on different gene sequences suggests an evolutionary rate slow down in the Sequoioideae lineage. Non-sequence based molecular studies indicate a low overall genetic diversity and a lack of spatial genetic structure in its native population in southern China. An isolated tree in Paomu, Hunan Province was found to contain both molecular and morphological plesiomorphic characteristics, providing important clues to its evolutionary history. Moreover, given the importance of these data, critical conservation issues are raised regarding the management and preservation of the genus. Molecular and biochemical investigations of ancient biomolecules from well-preserved Tertiary fossil remains reveal the preservation of labile biomolecules such as carbohydrates that are normally absent from the Cenozoic fossil record. Comparative geochemical and SEM analyses of well preserved fossil specimens revealed the sources of these chemically unstable biomolecules and suggests that they may carry important structural functions to support the integrity of plant fossil morphology. These ancient biomolecules from fossil also offer valuable information regarding the environmental factors controlling the preservation of labile biomolecules and possible origins of homologous series of -alk-1-ene/-alkane pairs preserved in the geological record.

Biomolecules from living and fossil Miki provide insight into the biological and geological history of the genus, as well as its phylogeny and evolution, population structure and molecular taphonomy. Chemically labile biomolecules such as protein and nucleotide sequences from Hu Cheng have reconfirmed the systematic position of as the sister taxon to Endlicher and J. Buchholz. These three genera form the subfamily Sequoioideae, which is one of the basal groups of the Taxodiaceae-Cupressaceae complex. Relative rate testing based on different gene sequences suggests an evolutionary rate slow down in the Sequoioideae lineage. Non-sequence based molecular studies indicate a low overall genetic diversity and a lack of spatial genetic structure in its native population in southern China. An isolated tree in Paomu, Hunan Province was found to contain both molecular and morphological plesiomorphic characteristics, providing important clues to its evolutionary history. Moreover, given the importance of these data, critical conservation issues are raised regarding the management and preservation of the genus. Molecular and biochemical investigations of ancient biomolecules from well-preserved Tertiary fossil remains reveal the preservation of labile biomolecules such as carbohydrates that are normally absent from the Cenozoic fossil record. Comparative geochemical and SEM analyses of well preserved fossil specimens revealed the sources of these chemically unstable biomolecules and suggests that they may carry important structural functions to support the integrity of plant fossil morphology. These ancient biomolecules from fossil also offer valuable information regarding the environmental factors controlling the preservation of labile biomolecules and possible origins of homologous series of -alk-1-ene/-alkane pairs preserved in the geological record.

Biomolecules from living and fossil Miki provide insight into the biological and geological history of the genus, as well as its phylogeny and evolution, population structure and molecular taphonomy. Chemically labile biomolecules such as protein and nucleotide sequences from Hu Cheng have reconfirmed the systematic position of as the sister taxon to Endlicher and J. Buchholz. These three genera form the subfamily Sequoioideae, which is one of the basal groups of the Taxodiaceae-Cupressaceae complex. Relative rate testing based on different gene sequences suggests an evolutionary rate slow down in the Sequoioideae lineage. Non-sequence based molecular studies indicate a low overall genetic diversity and a lack of spatial genetic structure in its native population in southern China. An isolated tree in Paomu, Hunan Province was found to contain both molecular and morphological plesiomorphic characteristics, providing important clues to its evolutionary history. Moreover, given the importance of these data, critical conservation issues are raised regarding the management and preservation of the genus. Molecular and biochemical investigations of ancient biomolecules from well-preserved Tertiary fossil remains reveal the preservation of labile biomolecules such as carbohydrates that are normally absent from the Cenozoic fossil record. Comparative geochemical and SEM analyses of well preserved fossil specimens revealed the sources of these chemically unstable biomolecules and suggests that they may carry important structural functions to support the integrity of plant fossil morphology. These ancient biomolecules from fossil also offer valuable information regarding the environmental factors controlling the preservation of labile biomolecules and possible origins of homologous series of -alk-1-ene/-alkane pairs preserved in the geological record.

Biomolecules from living and fossil Miki provide insight into the biological and geological history of the genus, as well as its phylogeny and evolution, population structure and molecular taphonomy. Chemically labile biomolecules such as protein and nucleotide sequences from Hu Cheng have reconfirmed the systematic position of as the sister taxon to Endlicher and J. Buchholz. These three genera form the subfamily Sequoioideae, which is one of the basal groups of the Taxodiaceae-Cupressaceae complex. Relative rate testing based on different gene sequences suggests an evolutionary rate slow down in the Sequoioideae lineage. Non-sequence based molecular studies indicate a low overall genetic diversity and a lack of spatial genetic structure in its native population in southern China. An isolated tree in Paomu, Hunan Province was found to contain both molecular and morphological plesiomorphic characteristics, providing important clues to its evolutionary history. Moreover, given the importance of these data, critical conservation issues are raised regarding the management and preservation of the genus. Molecular and biochemical investigations of ancient biomolecules from well-preserved Tertiary fossil remains reveal the preservation of labile biomolecules such as carbohydrates that are normally absent from the Cenozoic fossil record. Comparative geochemical and SEM analyses of well preserved fossil specimens revealed the sources of these chemically unstable biomolecules and suggests that they may carry important structural functions to support the integrity of plant fossil morphology. These ancient biomolecules from fossil also offer valuable information regarding the environmental factors controlling the preservation of labile biomolecules and possible origins of homologous series of -alk-1-ene/-alkane pairs preserved in the geological record.

Biomolecules from living and fossil Miki provide insight into the biological and geological history of the genus, as well as its phylogeny and evolution, population structure and molecular taphonomy. Chemically labile biomolecules such as protein and nucleotide sequences from Hu Cheng have reconfirmed the systematic position of as the sister taxon to Endlicher and J. Buchholz. These three genera form the subfamily Sequoioideae, which is one of the basal groups of the Taxodiaceae-Cupressaceae complex. Relative rate testing based on different gene sequences suggests an evolutionary rate slow down in the Sequoioideae lineage. Non-sequence based molecular studies indicate a low overall genetic diversity and a lack of spatial genetic structure in its native population in southern China. An isolated tree in Paomu, Hunan Province was found to contain both molecular and morphological plesiomorphic characteristics, providing important clues to its evolutionary history. Moreover, given the importance of these data, critical conservation issues are raised regarding the management and preservation of the genus. Molecular and biochemical investigations of ancient biomolecules from well-preserved Tertiary fossil remains reveal the preservation of labile biomolecules such as carbohydrates that are normally absent from the Cenozoic fossil record. Comparative geochemical and SEM analyses of well preserved fossil specimens revealed the sources of these chemically unstable biomolecules and suggests that they may carry important structural functions to support the integrity of plant fossil morphology. These ancient biomolecules from fossil also offer valuable information regarding the environmental factors controlling the preservation of labile biomolecules and possible origins of homologous series of -alk-1-ene/-alkane pairs preserved in the geological record.

Biomolecules from living and fossil Miki provide insight into the biological and geological history of the genus, as well as its phylogeny and evolution, population structure and molecular taphonomy. Chemically labile biomolecules such as protein and nucleotide sequences from Hu Cheng have reconfirmed the systematic position of as the sister taxon to Endlicher and J. Buchholz. These three genera form the subfamily Sequoioideae, which is one of the basal groups of the Taxodiaceae-Cupressaceae complex. Relative rate testing based on different gene sequences suggests an evolutionary rate slow down in the Sequoioideae lineage. Non-sequence based molecular studies indicate a low overall genetic diversity and a lack of spatial genetic structure in its native population in southern China. An isolated tree in Paomu, Hunan Province was found to contain both molecular and morphological plesiomorphic characteristics, providing important clues to its evolutionary history. Moreover, given the importance of these data, critical conservation issues are raised regarding the management and preservation of the genus. Molecular and biochemical investigations of ancient biomolecules from well-preserved Tertiary fossil remains reveal the preservation of labile biomolecules such as carbohydrates that are normally absent from the Cenozoic fossil record. Comparative geochemical and SEM analyses of well preserved fossil specimens revealed the sources of these chemically unstable biomolecules and suggests that they may carry important structural functions to support the integrity of plant fossil morphology. These ancient biomolecules from fossil also offer valuable information regarding the environmental factors controlling the preservation of labile biomolecules and possible origins of homologous series of -alk-1-ene/-alkane pairs preserved in the geological record.

Biomolecules from living and fossil Miki provide insight into the biological and geological history of the genus, as well as its phylogeny and evolution, population structure and molecular taphonomy. Chemically labile biomolecules such as protein and nucleotide sequences from Hu Cheng have reconfirmed the systematic position of as the sister taxon to Endlicher and J. Buchholz. These three genera form the subfamily Sequoioideae, which is one of the basal groups of the Taxodiaceae-Cupressaceae complex. Relative rate testing based on different gene sequences suggests an evolutionary rate slow down in the Sequoioideae lineage. Non-sequence based molecular studies indicate a low overall genetic diversity and a lack of spatial genetic structure in its native population in southern China. An isolated tree in Paomu, Hunan Province was found to contain both molecular and morphological plesiomorphic characteristics, providing important clues to its evolutionary history. Moreover, given the importance of these data, critical conservation issues are raised regarding the management and preservation of the genus. Molecular and biochemical investigations of ancient biomolecules from well-preserved Tertiary fossil remains reveal the preservation of labile biomolecules such as carbohydrates that are normally absent from the Cenozoic fossil record. Comparative geochemical and SEM analyses of well preserved fossil specimens revealed the sources of these chemically unstable biomolecules and suggests that they may carry important structural functions to support the integrity of plant fossil morphology. These ancient biomolecules from fossil also offer valuable information regarding the environmental factors controlling the preservation of labile biomolecules and possible origins of homologous series of -alk-1-ene/-alkane pairs preserved in the geological record.

Biomolecules from living and fossil Miki provide insight into the biological and geological history of the genus, as well as its phylogeny and evolution, population structure and molecular taphonomy. Chemically labile biomolecules such as protein and nucleotide sequences from Hu Cheng have reconfirmed the systematic position of as the sister taxon to Endlicher and J. Buchholz. These three genera form the subfamily Sequoioideae, which is one of the basal groups of the Taxodiaceae-Cupressaceae complex. Relative rate testing based on different gene sequences suggests an evolutionary rate slow down in the Sequoioideae lineage. Non-sequence based molecular studies indicate a low overall genetic diversity and a lack of spatial genetic structure in its native population in southern China. An isolated tree in Paomu, Hunan Province was found to contain both molecular and morphological plesiomorphic characteristics, providing important clues to its evolutionary history. Moreover, given the importance of these data, critical conservation issues are raised regarding the management and preservation of the genus. Molecular and biochemical investigations of ancient biomolecules from well-preserved Tertiary fossil remains reveal the preservation of labile biomolecules such as carbohydrates that are normally absent from the Cenozoic fossil record. Comparative geochemical and SEM analyses of well preserved fossil specimens revealed the sources of these chemically unstable biomolecules and suggests that they may carry important structural functions to support the integrity of plant fossil morphology. These ancient biomolecules from fossil also offer valuable information regarding the environmental factors controlling the preservation of labile biomolecules and possible origins of homologous series of -alk-1-ene/-alkane pairs preserved in the geological record.