9 research outputs found
Additional file 2: of Carriers of mitochondrial DNA macrohaplogroup L3 basal lineages migrated back to Africa from Asia around 70,000 years ago
Figure S1. Phylogenetic tree of mtDNA macrohaplogroup L complete African sequences produced in this study. (XLSX 71 kb
Additional file 1: of Carriers of mitochondrial DNA macrohaplogroup L3 basal lineages migrated back to Africa from Asia around 70,000 years ago
Table S1. Complete mtDNA macrohaplogroup L sequences. Table S2. Frequencies of mtDNA haplogroups L2 and L3 and Y-chromosome haplogroup E lineages across Africa. Table S3. Coalescence ages in thousand years (kya) with 95% coefficient intervals (CI), or standard deviations, for the main mitochondrial DNA African haplogroups. Table S4. Coalescence ages in thousand years (kya) with 95% coefficient intervals (CI), or standard deviations, for Y-chromosome most recent common ancestor (MRCA), the out-of-Africa event, and the splits of haplogroup DE and E. Table S5. Population clustering into five classes. Table S6. k-means cluster results using African populations characterized by mtDNA L3 and Y-chromosome E haplogroup frequencies. Table S7. k-means cluster results using African populations characterized by mtDNA L2 and L3 and Y-chromosome E haplogroup frequencies. (XLSX 403 kb
Additional file 2: Table S1. of Carriers of human mitochondrial DNA macrohaplogroup M colonized India from southeastern Asia
Haplogroup M in Saudi Arabia. In bold haplotypes from this study. Table S2. Super-haplogroup Ages and Geographic links. Table S3. Haplogroup M geographic ranges and ages in kiloyears (kya). Table S4. Populations used in the AMOVA and k-means clustering analyses. Table S5. Mitochondrial DNA M haplogroup ages and coordinates for their respective geographic centers used in the correlation analysis. Table S6. Modern human oldest fossil dating in different regions of Asia and oldest archaeological dating at the eastern side of the Wallace Line. (XLSX 91 kb
Additional file 1: Figure S1. of Carriers of human mitochondrial DNA macrohaplogroup M colonized India from southeastern Asia
Phylogenetic tree of M complete sequences from this study. (XLSX 66 kb
Additional file 1: Table S1. of Carriers of mitochondrial DNA macrohaplogroup R colonized Eurasia and Australasia from a southeast Asia core area
Worldwide mtDNA haplogroup U3 sequences. Table S2. MtDNA haplogroup U3 haplotypic frequencies (%) in Eurasian and northern Africa main regions. Table S3. MtDNA complete U and P sequences obtained in this study. Table S4. Mitochondrial DNA haplogroup P frequencies (%) in the West Pacific Islands. Table S5. Mitochondrial DNA haplogroup frequencies (%) in Australia. Table S6. Frequency (%) of major mtDNA macrohaplogroup R branches in different regions of Eurasia and Australasia. Table S7. MtDNA macrohaplogroup M, N and R frequencies (%) in Eurasia and Australasia. Table S8. Mantel tests based on correlations between geographic distances (a), genetic distances (b), and genetic identities (c). Table S9. Coalescence ages for the main branches of mtDNA haplogroup R in different geographic areas. (XLSX 266 kb
Relationship between average seed coat thickness and seed germination ratio of <i>Rubia fruticosa</i> and <i>R.</i><i>fruticosa</i> across mother plants and within each treatment.
<p>Each dot corresponds to each mother plant (<i>n</i> = 20).</p
Additional file 2: of Carriers of mitochondrial DNA macrohaplogroup R colonized Eurasia and Australasia from a southeast Asia core area
Figure S1. MtDNA haplogroup U phylogeny with emphasis on the U3 branch. Figure S2. MtDNA haplogroup P phylogeny. (XLSX 175 kb
Average percentage and standard error of germinated seeds in <i>Rubia peregrina</i> (black bars) and <i>R.</i><i>fruticosa</i> (grey bars) for different treatments: control with pulp (P), control with pulp removed (PR), lizards (L) and birds (B).
<p>Asterisk at the top of bars indicates significant difference between species across treatments after applying Bonferroni’s correction factor (α’ = 0.0018).</p
<i>Rubia peregrina</i> and <i>R. fruticosa</i> seed coat thickness (µm).
<p>The table shows values for control seeds and for seeds after passing through the digestive tract of each disperser.</p>a,b<p>Values with different lowercase letters are significantly different in seed coat thickness for paired comparisons between treatments, after applying the Bonferroni correction factor (α’ = 0.016).</p