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276 results on '"Burbano, Hernán A."'

1. Century-long timelines of herbarium genomes predict plant stomatal response to climate change

Author

Lang, Patricia LM, Erberich, Joel M, Lopez, Lua, Weiß, Clemens L, Amador, Gabriel, Fung, Hannah F, Latorre, Sergio M, Lasky, Jesse R, Burbano, Hernán A, Expósito-Alonso, Moisés, and Bergmann, Dominique C

Subjects
Plant Biology, Biological Sciences, Genetics, Climate Action, Ecology, Evolutionary biology, Environmental management
Abstract

Dissecting plant responses to the environment is key to understanding whether and how plants adapt to anthropogenic climate change. Stomata, plants' pores for gas exchange, are expected to decrease in density following increased CO2 concentrations, a trend already observed in multiple plant species. However, it is unclear whether such responses are based on genetic changes and evolutionary adaptation. Here we make use of extensive knowledge of 43 genes in the stomatal development pathway and newly generated genome information of 191 Arabidopsis thaliana historical herbarium specimens collected over 193 years to directly link genetic variation with climate change. While we find that the essential transcription factors SPCH, MUTE and FAMA, central to stomatal development, are under strong evolutionary constraints, several regulators of stomatal development show signs of local adaptation in contemporary samples from different geographic regions. We then develop a functional score based on known effects of gene knock-out on stomatal development that recovers a classic pattern of stomatal density decrease over the past centuries, suggesting a genetic component contributing to this change. This approach combining historical genomics with functional experimental knowledge could allow further investigations of how different, even in historical samples unmeasurable, cellular plant phenotypes may have already responded to climate change through adaptive evolution.

Published
2024

6. Multiple Horizontal Mini-chromosome Transfers Drive Genome Evolution of Clonal Blast Fungus Lineages.

Author

Barragan, Ana Cristina, Latorre, Sergio M, Malmgren, Angus, Harant, Adeline, Win, Joe, Sugihara, Yu, Burbano, Hernán A, Kamoun, Sophien, and Langner, Thorsten

Subjects
RICE blast disease, PHYTOPATHOGENIC microorganisms, PLANT diseases, GENETIC variation, PANDEMICS
Abstract

Crop disease pandemics are often driven by asexually reproducing clonal lineages of plant pathogens that reproduce asexually. How these clonal pathogens continuously adapt to their hosts despite harboring limited genetic variation, and in absence of sexual recombination remains elusive. Here, we reveal multiple instances of horizontal chromosome transfer within pandemic clonal lineages of the blast fungus Magnaporthe (Syn. Pyricularia) oryzae. We identified a horizontally transferred 1.2Mb accessory mini-chromosome which is remarkably conserved between M. oryzae isolates from both the rice blast fungus lineage and the lineage infecting Indian goosegrass (Eleusine indica), a wild grass that often grows in the proximity of cultivated cereal crops. Furthermore, we show that this mini-chromosome was horizontally acquired by clonal rice blast isolates through at least nine distinct transfer events over the past three centuries. These findings establish horizontal mini-chromosome transfer as a mechanism facilitating genetic exchange among different host-associated blast fungus lineages. We propose that blast fungus populations infecting wild grasses act as genetic reservoirs that drive genome evolution of pandemic clonal lineages that afflict cereal crops. [ABSTRACT FROM AUTHOR]

Published
2024
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9. The rise and fall of the Phytophthora infestans lineage that triggered the Irish potato famine

Author

Yoshida, Kentaro, Schuenemann, Verena J., Cano, Liliana M., Pais, Marina, Mishra, Bagdevi, Sharma, Rahul, Lanz, Christa, Martin, Frank N., Kamoun, Sophien, Krause, Johannes, Thines, Marco, Weigel, Detlef, and Burbano, Hernán A.

Subjects
Quantitative Biology - Genomics
Abstract

Phytophthora infestans, the cause of potato late blight, is infamous for having triggered the Irish Great Famine in the 1840s. Until the late 1970s, P. infestans diversity outside of its Mexican center of origin was low, and one scenario held that a single strain, US-1, had dominated the global population for 150 years; this was later challenged based on DNA analysis of historical herbarium specimens. We have compared the genomes of 11 herbarium and 15 modern strains. We conclude that the nineteenth century epidemic was caused by a unique genotype, HERB-1, that persisted for over 50 years. HERB-1 is distinct from all examined modern strains, but it is a close relative of US-1, which replaced it outside of Mexico in the twentieth century. We propose that HERB-1 and US-1 emerged from a metapopulation that was established in the early 1800s outside of the species' center of diversity., Comment: To be published in eLIFE

Published
2013
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11. Analysis of human accelerated DNA regions using archaic hominin genomes.

Author

Burbano, Hernán A, Green, Richard E, Maricic, Tomislav, Lalueza-Fox, Carles, de la Rasilla, Marco, Rosas, Antonio, Kelso, Janet, Pollard, Katherine S, Lachmann, Michael, and Pääbo, Svante

Subjects
Animals, Hominidae, Humans, DNA, Cluster Analysis, Adaptation, Biological, Evolution, Molecular, Mutation, Genome, Genome, Human, Male, Neanderthals, Adaptation, Biological, Evolution, Molecular, Human, General Science & Technology
Abstract

Several previous comparisons of the human genome with other primate and vertebrate genomes identified genomic regions that are highly conserved in vertebrate evolution but fast-evolving on the human lineage. These human accelerated regions (HARs) may be regions of past adaptive evolution in humans. Alternatively, they may be the result of non-adaptive processes, such as biased gene conversion. We captured and sequenced DNA from a collection of previously published HARs using DNA from an Iberian Neandertal. Combining these new data with shotgun sequence from the Neandertal and Denisova draft genomes, we determine at least one archaic hominin allele for 84% of all positions within HARs. We find that 8% of HAR substitutions are not observed in the archaic hominins and are thus recent in the sense that the derived allele had not come to fixation in the common ancestor of modern humans and archaic hominins. Further, we find that recent substitutions in HARs tend to have come to fixation faster than substitutions elsewhere in the genome and that substitutions in HARs tend to cluster in time, consistent with an episodic rather than a clock-like process underlying HAR evolution. Our catalog of sequence changes in HARs will help prioritize them for functional studies of genomic elements potentially responsible for modern human adaptations.

Published
2012

12. Genomic estimation of complex traits reveals ancient maize adaptation to temperate North America

Author

Swarts, Kelly, Gutaker, Rafal M., Benz, Bruce, Blake, Michael, Bukowski, Robert, Holland, James, Kruse-Peeples, Melissa, Lepak, Nicholas, Prim, Lynda, Romay, M. Cinta, Ross-Ibarra, Jeffrey, de Jesus Sanchez-Gonzalez, Jose, Schmidt, Chris, Schuenemann, Verena J., Krause, Johannes, Matson, R. G., Weigel, Detlef, Buckler, Edward S., and Burbano, Hernán A.

Published
2017

14. Neandertal and Denisovan DNA from Pleistocene sediments

Author

Slon, Viviane, Hopfe, Charlotte, Weiß, Clemens L., Mafessoni, Fabrizio, de la Rasilla, Marco, Lalueza-Fox, Carles, Rosas, Antonio, Soressi, Marie, Knul, Monika V., Miller, Rebecca, Stewart, John R., Derevianko, Anatoly P., Jacobs, Zenobia, Li, Bo, Roberts, Richard G., Shunkov, Michael V., de Lumley, Henry, Perrenoud, Christian, Gušić, Ivan, Kućan, Željko, Rudan, Pavao, Aximu-Petri, Ayinuer, Essel, Elena, Nagel, Sarah, Nickel, Birgit, Schmidt, Anna, Prüfer, Kay, Kelso, Janet, Burbano, Hernán A., Pääbo, Svante, and Meyer, Matthias

Published
2017

17. Código de ética odontológica comentado (Ley 35 de 1989)

Author

Bravo Villarreal, Clara Inés, additional, Córdoba Urbano, Doris Lucía, additional, Dávila Narváez, Fernando, additional, Guerrero Burbano, Hernán Javier, additional, Henao Pérez, Daniel, additional, Lagos Mora, Adriana, additional, López Moncayo, Luis Fernando, additional, Medina Chaves, Hugo Armando, additional, Molina Portilla, Diana María, additional, Prada Marín, Sergio Eduardo, additional, Portilla Giraldo, Juan Erizalde, additional, Romero Silva, Germán Arturo, additional, and Tapias Arenas, Eddy Mercedes, additional

Published
2019
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20. Genomic surveillance uncovers a pandemic clonal lineage of the wheat blast fungus

Author

Latorre, Sergio M., primary, Were, Vincent M., additional, Foster, Andrew J., additional, Langner, Thorsten, additional, Malmgren, Angus, additional, Harant, Adeline, additional, Asuke, Soichiro, additional, Reyes-Avila, Sarai, additional, Gupta, Dipali Rani, additional, Jensen, Cassandra, additional, Ma, Weibin, additional, Mahmud, Nur Uddin, additional, Mehebub, Md. Shåbab, additional, Mulenga, Rabson M., additional, Muzahid, Abu Naim Md., additional, Paul, Sanjoy Kumar, additional, Rabby, S. M. Fajle, additional, Rahat, Abdullah Al Mahbub, additional, Ryder, Lauren, additional, Shrestha, Ram-Krishna, additional, Sichilima, Suwilanji, additional, Soanes, Darren M., additional, Singh, Pawan Kumar, additional, Bentley, Alison R., additional, Saunders, Diane G. O., additional, Tosa, Yukio, additional, Croll, Daniel, additional, Lamour, Kurt H., additional, Islam, Tofazzal, additional, Tembo, Batiseba, additional, Win, Joe, additional, Talbot, Nicholas J., additional, Burbano, Hernán A., additional, and Kamoun, Sophien, additional

Published
2023
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24. Rabbit genome analysis reveals a polygenic basis for phenotypic change during domestication

Author

Carneiro, Miguel, Rubin, Carl-Johan, Di Palma, Federica, Albert, Frank W., Alföldi, Jessica, Barrio, Alvaro Martinez, Pielberg, Gerli, Rafati, Nima, Sayyab, Shumaila, Turner-Maier, Jason, Younis, Shady, Afonso, Sandra, Aken, Bronwen, Alves, Joel M., Barrell, Daniel, Bolet, Gerard, Boucher, Samuel, Burbano, Hernán A., Campos, Rita, Chang, Jean L., Duranthon, Veronique, Fontanesi, Luca, Garreau, Hervé, Heiman, David, Johnson, Jeremy, Mage, Rose G., Peng, Ze, Queney, Guillaume, Rogel-Gaillard, Claire, Ruffier, Magali, Searle, Steve, Villafuerte, Rafael, Xiong, Anqi, Young, Sarah, Forsberg-Nilsson, Karin, Good, Jeffrey M., Lander, Eric S., Ferrand, Nuno, Lindblad-Toh, Kerstin, and Andersson, Leif

Published
2014

25. Patterns of coding variation in the complete exomes of three Neandertals

Author

Castellano, Sergi, Parra, Genís, Sánchez-Quinto, Federico A., Racimo, Fernando, Kuhlwilm, Martin, Kircher, Martin, Sawyer, Susanna, Fu, Qiaomei, Heinze, Anja, Nickel, Birgit, Dabney, Jesse, Siebauer, Michael, White, Louise, Burbano, Hernán A., Renaud, Gabriel, Stenzel, Udo, Lalueza-Fox, Carles, de la Rasilla, Marco, Rosas, Antonio, Rudan, Pavao, Brajković, Dejana, Kucan, Željko, Gušic, Ivan, Shunkov, Michael V., Derevianko, Anatoli P., Viola, Bence, Meyer, Matthias, Kelso, Janet, Andrés, Aida M., and Pääbo, Svante

Published
2014

29. A pandemic clonal lineage of the wheat blast fungus

Author

Latorre, Sergio M., primary, Were, Vincent M., additional, Foster, Andrew J., additional, Langner, Thorsten, additional, Malmgren, Angus, additional, Harant, Adeline, additional, Asuke, Soichiro, additional, Reyes-Avila, Sarai, additional, Gupta, Dipali Rani, additional, Jensen, Cassandra, additional, Ma, Weibin, additional, Mahmud, Nur Uddin, additional, Mehebub, Md. Shåbab, additional, Mulenga, Rabson M., additional, Muzahid, Abu Naim Md., additional, Paul, Sanjoy Kumar, additional, Rabby, S. M. Fajle, additional, Raha, Abdullah Al Mahbub, additional, Ryder, Lauren, additional, Shrestha, Ram-Krishna, additional, Sichilima, Suwilanji, additional, Soanes, Darren M., additional, Singh, Pawan Kumar, additional, Bentley, Alison R., additional, Saunders, Diane G. O., additional, Tosa, Yukio, additional, Croll, Daniel, additional, Lamour, Kurt H, additional, Islam, Tofazzal, additional, Tembo, Batiseba, additional, Win, Joe, additional, Talbot, Nicholas J., additional, Burbano, Hernán A., additional, and Kamoun, Sophien, additional

Published
2022
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32. A curated set of mating-type assignment for the blast fungus (Magnaporthales)

Author

Latorre, Sergio M., Were, Vincent M., Langer, Thorsten, Foster, Andrew J., Win, Joe, Kamoun, Sophien, Talbot, Nicholas J., and Burbano, Hernán A.

Subjects
Mating type, Nomenclature, behavior and behavior mechanisms, Magnaporthe oryzae, reproductive and urinary physiology
Abstract

Conflicting mating type annotations are frequent in Magnaporthe (Syn. Pyricularia) oryzae literature. Here, we classify the mating types of 14 standard strains and 258 genome samples of Magnaporthe sp. based on the protein structure-based nomenclature of Turgeon & Yoder (2000). We hope that our dataset will help to reduce confusion about mating type nomenclature in Magnaporthales and will facilitate comparisons across studies.

Published
2022
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35. A Draft Sequence of the Neandertal Genome

Author

Green, Richard E., Krause, Johannes, Briggs, Adrian W., Marcic, Tomislav, Stenzel, Udo, Kircher, Martin, Patterson, Nick, Li, Heng, Zhai, Weiwei, Fritz, Markus Hsi-Yang, Hansen, Nancy F., Durand, Eric Y., Malaspinas, Anna-Sapfo, Jensen, Jeffrey D., Marques-Bonet, Tomas, Alkan, Can, Prüfer, kay, Meyer, Matthias, Burbano, Hernán A., Good, Jeffrey M., Schultz, Rigo, Aximu-Petri, Ayinuer, Butthof, Anne, Höber, Barbara, Höffner, Barbara, Siegemund, Madlen, Weihmann, Antje, Nusbaum, Chad, Lander, Eric S., Russ, Carsten, Novod, Nathaniel, Affourtit, Jason, Egholm, Michael, Verna, Christine, Rudan, Pavao, Brajkovic, Dejana, Kucan, Zeljko, Gusic, Ivan, Doronichev, Vladimir B., Golovanova, Liubov V., Lalueza-Fox, Carles, de la Rasilla, Marco, Fortea, Javier, Rosas, Antonio, Schmitz, Ralf W., Johnson, Philip L F., Eichler, Evan E., Falush, Daniel, Birney, Ewan, Mullikin, James, Slatkin, Montgomery, Nielsen, Rasmus, Kelso, Janet, Lachmann, Michael, Reich, David, and Pääbo, Svante

Published
2010

36. Targeted Investigation of the Neandertal Genome by Array-Based Sequence Capture

Author

Burbano, Hernán A., Hodges, Emily, Green, Richard E., Briggs, Adrian W., Krause, Johannes, Meyer, Matthias, Good, Jeffrey M., Maricic, Tomislav, Johnson, Philip L F., Xuan, Zhenyu, Rooks, Michelle, Bhattacharjee, Arindam, Brizuela, Leonardo, Albert, Frank W., de la Rasilla, Marco, Fortea, Javier, Rosas, Antonio, Lachmann, Michael, Hannon, Gregory J., and Pääbo, Svante

Published
2010

37. Mini-Chromosomes as Horizontal Gene Shuttles in the Multihost Blast Fungus

Author

Barragán, A. Cristina, Latorre, Sergio M., Malmgren, Angus, Harant, Adeline, Win, Joe, Lamour, Kurt, Burbano, Hernán A., and Kamoun, Sophien

Subjects
plant science, plant pathology, fungi, microbiology, evolution, genomics, food and beverages
Abstract

The blast fungus Magnaporthe oryzae is a devastating plant pathogen infecting multiple staple crops. A major challenge in developing blast resistant crops is the ability M. oryzae has to quickly adapt to its plant host and overcome disease resistance. This poster described our work on how mini-chromosomes, i.e. small, supernumerary chromosomes, can contribute to adaptive evolution in M. oryzae.&nbsp

Published
2021
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38. Acid Fostatase Activity in soils croping with potato and pastures from the Catambuco, Pasto, Colombia Actividad de fosfatasa ácida en suelos cultivados con papa y praderas del corregimiento de Catambuco, Pasto-Colombia

Author

Burbano Hernán, Bonilla Correa Carmen Rosa, and Gálviz Carmen

Subjects
Actividad fosfatasa ácida, uso del terreno, Solanum tuberosum, Acid phosphatase activity, use of land, Solanum tuberosum, Agriculture
Abstract

To estimated the acid phosphatase activity (APA) in soil covered with potato and prairie in Catambuco, place Pasto, Colombia; located to 2820 msnm and with average temperature of 12.4oC. The acid phosphatase activity obtained the biggest values in soil covered with prairie in winter time, in addition to that, there were high correlations between the APA and the organic matter off the soil. In the factors sampling times and use of the soil, there were significance statistical differences, with the most significance in soil covered with prairie and with recent use in potato cultivation. The APA obtained the biggest percentage in soil covered with prairie, in front of the soil cultivated with potato for the two evaluated times. Key words: Acid phosphatase activity, use of land, Solanum tuberosumCon el objetivo de estimar y comparar la actividad de la fostatasa ácida (AFA) en suelos sembrados con papa y con pastos, se realizó la presente investigación en suelos del corregimiento de Catambuco, municipio de Pasto, Colombia (2.820 msnm, 12.4oC). La mayor actividad de la fosfatasa ácida ocurrió en pradera en época de invierno; además se encontraron altas correlaciones entre AFA y el contenido de materia orgánica. Para los factores épocas de muestreo y uso del suelo hubo diferencias estadísticas altamente significativas y para suelos cubiertos con pradera y con uso reciente en el cultivo de papa. La AFA alcanzó el mayor porcentaje en suelos cubiertos con pradera, frente a los suelos cultivados con papa, para las dos épocas evaluadas. Palabras claves: Actividad fosfatasa ácida, uso del terreno, Solanum tuberosum

Published
2007

39. Ancient gene flow from early modern humans into Eastern Neanderthals

Author

Kuhlwilm, Martin, Gronau, Ilan, Hubisz, Melissa J., de Filippo, Cesare, Prado-Martinez, Javier, Kircher, Martin, Fu, Qiaomei, Burbano, Hernán A., Lalueza-Fox, Carles, de la Rasilla, Marco, Rosas, Antonio, Rudan, Pavao, Brajkovic, Dejana, Kucan, Željko, Gušic, Ivan, Marques-Bonet, Tomas, Andrés, Aida M., Viola, Bence, Pääbo, Svante, Meyer, Matthias, Siepel, Adam, and Castellano, Sergi

Published
2016
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43. The emergence of wheat blast in Zambia and Bangladesh was caused by the same genetic lineage of Magnaporthe oryzae

Author

Latorre, Sergio M. and Burbano, Hernán A.

Subjects
Plant Pathogens, Outbreaks, food and beverages, Wheat blast, Magnaporthe oryzae
Abstract

Analysis of genotyping data (84 SNPs) derived from blast fungus (Magnaporthe oryzae) isolates (N=186) from 13 different grasses in order to establish the genetic makeup and the phylogenetic placement of the wheat-infecting lineage that caused a wheat blast outbreak in Zambia (2018-2020). The wheat-infecting isolates from Zambia (2018-2020) clustered together with the wheat-infecting isolates that caused the initial outbreak in Bangladesh (2016). We concluded that the same lineage responsible for the initial wheat blast outbreak in Bangladesh (2016) caused the wheat blast outbreak in Zambia (2018-2020). The genotyping of 84 SNPs in multiple grasses permitted the identification of the epidemic lineage responsible for the outbreaks in both Bangladesh and Zambia., Royal Society Wolfson Fellowship (RSWF\R1\191011)

Published
2021
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44. EVOLUTIONARY GENOMICS: Rabbit genome analysis reveals a polygenic basis for phenotypic change during domestication

Author

Carneiro, Miguel, Rubin, Carl-Johan, Di Palma, Federica, Albert, Frank W., Alföldi, Jessica, Barrio, Alvaro Martinez, Pielberg, Gerli, Rafati, Nima, Sayyab, Shumaila, Turner-Maier, Jason, Younis, Shady, Afonso, Sandra, Aken, Bronwen, Alves, Joel M., Barrell, Daniel, Bolet, Gerard, Boucher, Samuel, Burbano, Hernán A., Campos, Rita, Chang, Jean L., Duranthon, Veronique, Fontanesi, Luca, Garreau, Hervé, Heiman, David, Johnson, Jeremy, Mage, Rose G., Peng, Ze, Queney, Guillaume, Rogel-Gaillard, Claire, Ruffier, Magali, Searle, Steve, Villafuerte, Rafael, Xiong, Anqi, Young, Sarah, Forsberg-Nilsson, Karin, Good, Jeffrey M., Lander, Eric S., Ferrand, Nuno, Lindblad-Toh, Kerstin, and Andersson, Leif

Published
2014
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46. Additional file 3 of Mining ancient microbiomes using selective enrichment of damaged DNA molecules

Author

Weiß, Clemens L., Marie-Theres Gansauge, Ayinuer Aximu-Petri, Meyer, Matthias, and Burbano, Hernán A.

Subjects
fungi, food and beverages
Abstract

Additional file 3: Figure S3. Taxonomic tree of reads from a Solanum tuberosum library assigned to different taxonomic levels. The size of the circle represents the amount of reads assigned to the node displayed in the tree or to any taxonomic level below it. Reads assigned to some species Phytophthora infestans, Pseudomonas syringae and Pseudomonas rhizosphaerae, as well as the genera Pseudomonas and Solanum are named in the taxonomic tree.

Published
2020
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47. Additional file 2 of Mining ancient microbiomes using selective enrichment of damaged DNA molecules

Author

Weiß, Clemens L., Marie-Theres Gansauge, Ayinuer Aximu-Petri, Meyer, Matthias, and Burbano, Hernán A.

Abstract

Additional file 2: Figure S2. Length and GC content of plant historical specimens. A. Distributions of mean length for non-selected and U-selected libraries (U-enriched and U-depleted fractions). Median values are denoted as black lines and points show the original value for each individual sample. B. Length distribution of Arabidopsis thaliana sample NY1365375 for a non-selected and U-selected library (U-enriched and U-depleted fractions). C. Distributions of mean GC content for non-selected and U-selected libraries (U-enriched and U-depleted fractions).

Published
2020
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48. Additional file 1 of Differential loss of effector genes in three recently expanded pandemic clonal lineages of the rice blast fungus

Author

Latorre, Sergio M., C. Sarai Reyes-Avila, Malmgren, Angus, Win, Joe, Sophien Kamoun, and Burbano, Hernán A.

Abstract

Additional file 1: Fig. S1. Principal component analysis (PCA) reveals four defined groups. Fig. S2. Relation between genetic groups and sample mating type. Fig. S3. The unfolded Site Frequency Spectrum (SFS). Fig. S4. Recent increase of population size in clonal lineages of Magnaporthe oryzae. Fig. S5. Effect of recombination on the Magnaporthe oryzae phylogeny construction. Fig. S6. Estimated Time to Most Recent Common Ancestor (TMRCA) for clonal lineages with / without invariant sites. Fig. S7. Effect of sample size on the topology of the tree and on the estimation of divergence times. Fig. S8. Phylogenetic inference using Single Nucleotide Polymorphisms using SNAPP. Fig. S9. Phylogenetic inference using SVDquartets. Fig. S10. Two Chinese individuals display consistent introgression with the clonal lineage II. Fig. S11. Ancestry-based genomic segmentation of Chinese individuals CH1016 and HB-LTH18 reveals a 4 Mb putative introgressed region on chromosome 3. Fig. S12. Effector loadings reveal major effector loss in clonal lineage III.

Published
2020
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49. Additional file 1 of Mining ancient microbiomes using selective enrichment of damaged DNA molecules

Author

Weiß, Clemens L., Marie-Theres Gansauge, Ayinuer Aximu-Petri, Meyer, Matthias, and Burbano, Hernán A.

Abstract

Additional file 1: Figure S1. Mapped and taxonomically assigned reads of plant historical specimens. A. Distributions of percentage of mapped reads for non-selected and U-selected libraries (U-enriched and U-depleted fractions). B. Distributions of percentage of taxonomically assigned reads for non-selected and U-selected libraries (U-enriched and U-depleted fractions). C. Correlation of the percentage of mapped reads between the U-enriched and the non-selected library D. Correlation of the percentage of taxonomically assigned reads between the U-enriched and the non-selected library E. Relation between percentages of mapped and taxonomically assigned reads from U-selected libraries (U-enriched fraction).

Published
2020
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50. Additional file 4 of Mining ancient microbiomes using selective enrichment of damaged DNA molecules

Author

Weiß, Clemens L., Marie-Theres Gansauge, Ayinuer Aximu-Petri, Meyer, Matthias, and Burbano, Hernán A.

Subjects
food and beverages
Abstract

Additional file 4: Figure S4. Analysis of de novo assembled Pseudomonas contigs from a Solanum tuberosum sample. Contig coverage of Pseudomonas syringae (A.) and Pseudomonas rhizosphaerae (B.). The circles represent each circular bacterial reference genome, and the black lines depict genomic regions covered by alignments of de novo assembled contigs. C. Percentage of reference genome of P. syringae and P. rhizosphaerae covered by de novo assembled contigs from A. and B., respectively.

Published
2020
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