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203 results on '"Ruhlman, Tracey A."'

1. Plastid Genome Assembly Using Long-read data.

Author

Zhou, Wenbin, Armijos, Carolina, Lee, Chaehee, Lu, Ruisen, Wang, Jeremy, Ruhlman, Tracey, Jansen, Robert, Jones, Alan, and Jones, Corbin

Subjects
Juncus, Juncaceae, Poales, chloroplast, long-read assembly, rearrangement events, Genome, Plastid, Repetitive Sequences, Nucleic Acid, Gene Rearrangement, Plastids, High-Throughput Nucleotide Sequencing, Sequence Analysis, DNA
Abstract

Although plastid genome (plastome) structure is highly conserved across most seed plants, investigations during the past two decades have revealed several disparately related lineages that experienced substantial rearrangements. Most plastomes contain a large inverted repeat and two single-copy regions, and a few dispersed repeats; however, the plastomes of some taxa harbour long repeat sequences (>300 bp). These long repeats make it challenging to assemble complete plastomes using short-read data, leading to misassemblies and consensus sequences with spurious rearrangements. Single-molecule, long-read sequencing has the potential to overcome these challenges, yet there is no consensus on the most effective method for accurately assembling plastomes using long-read data. We generated a pipeline, plastid Genome Assembly Using Long-read data (ptGAUL), to address the problem of plastome assembly using long-read data from Oxford Nanopore Technologies (ONT) or Pacific Biosciences platforms. We demonstrated the efficacy of the ptGAUL pipeline using 16 published long-read data sets. We showed that ptGAUL quickly produces accurate and unbiased assemblies using only ~50× coverage of plastome data. Additionally, we deployed ptGAUL to assemble four new Juncus (Juncaceae) plastomes using ONT long reads. Our results revealed many long repeats and rearrangements in Juncus plastomes compared with basal lineages of Poales. The ptGAUL pipeline is available on GitHub: https://github.com/Bean061/ptgaul.

Published
2023

12. Plastid Genome Assembly Using Long-read data (ptGAUL)

Author

Zhou, Wenbin, primary, Armijos, Carolina, additional, Lee, Chaehee, additional, Lu, Ruisen, additional, Wang, Jeremy, additional, Ruhlman, Tracey, additional, Jansen, Robert, additional, Jones, Alan, additional, and Jones, Corbin, additional

Published
2022
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37. MOESM2 of Fluctuations in Fabaceae mitochondrial genome size and content are both ancient and recent

Author

In-Su Choi, Schwarz, Erika, Ruhlman, Tracey, Khiyami, Mohammad, Sabir, Jamal, Hajarah, Nahid, Mernan Sabir, Rabah, Samar, and Jansen, Robert

Abstract

Additional file 2: Figure S1. Read coverage of four complete Fabaceae mitogenomes. Figure S2. Factors contributing to mitogenome size in 12 representative Fabaceae. Figure S3. Gene content of the 12 Fabaceae mitogenomes. Figure S4. Maximum likelihood phylogenies for rpl2 and rps19. Figure S5. Variation in the cox2 gene among Fabaceae mitogenomes. Figure S6. Schematic relationships of shared mitochondrial DNA between Fabaceae and holoparasitic Lophophytum (Balanophoraceae).

Published
2019
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38. Pelargonium small subunit ribosomal RNA gene, partial sequence; internal transcribed spacer 1 and 5.8S ribosomal RNA gene, complete sequence; and internal transcribed spacer 2, partial sequence

Author

van de Kerke, Sara J., Shrestha, Bikash, Ruhlman, Tracey A., Weng, Mao Lun, Jansen, Robert K., Jones, Cynthia S., Schlichting, Carl D., Hosseini, Samin, Mohammadin, Setareh, Schranz, M.E., Bakker, Freek T., van de Kerke, Sara J., Shrestha, Bikash, Ruhlman, Tracey A., Weng, Mao Lun, Jansen, Robert K., Jones, Cynthia S., Schlichting, Carl D., Hosseini, Samin, Mohammadin, Setareh, Schranz, M.E., and Bakker, Freek T.

Published
2019

39. Plastome based phylogenetics and younger crown node age in Pelargonium

Author

van de Kerke, Sara J., Shrestha, Bikash, Ruhlman, Tracey A., Weng, Mao Lun, Jansen, Robert K., Jones, Cynthia S., Schlichting, Carl D., Hosseini, Samin, Mohammadin, Setareh, Schranz, M.E., Bakker, Freek T., van de Kerke, Sara J., Shrestha, Bikash, Ruhlman, Tracey A., Weng, Mao Lun, Jansen, Robert K., Jones, Cynthia S., Schlichting, Carl D., Hosseini, Samin, Mohammadin, Setareh, Schranz, M.E., and Bakker, Freek T.

Abstract

The predominantly South-African plant genus Pelargonium L'Hér. (Geraniaceae) displays remarkable morphological diversity, several basic chromosome numbers as well as high levels of organelle genomic rearrangements, and represents the 7th largest Cape Floristic Region clade. In this study, we reconstructed a phylogenetic tree based on 74 plastome exons and nuclear rDNA ITS regions for 120 species, which represents 43% taxon coverage for Pelargonium. We also performed a dating analysis to examine the timing of the major radiations in the genus. Phylogenetic analyses of nucleotide, amino acid, and ITS alignments confirmed the previously-documented subgeneric split into five main clades ((C1,C2),(B(A1,A2))) although clade only A1 received low bootstrap support. Using calibration evidence from a range of sources the Pelargonium crown age was estimated to be 9.7 My old, much younger than previous estimates for the genus but similar to recent studies of other Cape Floristic lineages that are part of both Fynbos and Succulent Karoo biomes.

Published
2019

41. Plastome based phylogenetics and younger crown node age in Pelargonium

Author

van de Kerke, Sara J., primary, Shrestha, Bikash, additional, Ruhlman, Tracey A., additional, Weng, Mao-Lun, additional, Jansen, Robert K., additional, Jones, Cynthia S., additional, Schlichting, Carl D., additional, Hosseini, Samin, additional, Mohammadin, Setareh, additional, Schranz, M. Eric, additional, and Bakker, Freek T., additional

Published
2019
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42. Nucleotide substitution rates of diatom plastid encoded protein genes are correlated with genome architecture

Author

Yu, Mengjie, primary, Ruhlman, Tracey A, additional, Hajrah, Nahid H, additional, Khiyami, Mohammad A, additional, Sabir, Mumdooh J, additional, Alblowi, Mohammed H., additional, Alhebshi, Alawiah M., additional, Al-Malki, Abdulrahman Al-Malki L., additional, Sabir, Jamal S.M., additional, Theriot, Edward C., additional, and Jansen, Robert K, additional

Published
2019
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44. Complete plastid genome sequence of Daucus carota: Implications for biotechnology and phylogeny of angiosperms

Author

Ruhlman Tracey, Lee Seung-Bum, Jansen Robert K, Hostetler Jessica B, Tallon Luke J, Town Christopher D, and Daniell Henry

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Carrot (Daucus carota) is a major food crop in the US and worldwide. Its capacity for storage and its lifecycle as a biennial make it an attractive species for the introduction of foreign genes, especially for oral delivery of vaccines and other therapeutic proteins. Until recently efforts to express recombinant proteins in carrot have had limited success in terms of protein accumulation in the edible tap roots. Plastid genetic engineering offers the potential to overcome this limitation, as demonstrated by the accumulation of BADH in chromoplasts of carrot taproots to confer exceedingly high levels of salt resistance. The complete plastid genome of carrot provides essential information required for genetic engineering. Additionally, the sequence data add to the rapidly growing database of plastid genomes for assessing phylogenetic relationships among angiosperms. Results The complete carrot plastid genome is 155,911 bp in length, with 115 unique genes and 21 duplicated genes within the IR. There are four ribosomal RNAs, 30 distinct tRNA genes and 18 intron-containing genes. Repeat analysis reveals 12 direct and 2 inverted repeats ≥ 30 bp with a sequence identity ≥ 90%. Phylogenetic analysis of nucleotide sequences for 61 protein-coding genes using both maximum parsimony (MP) and maximum likelihood (ML) were performed for 29 angiosperms. Phylogenies from both methods provide strong support for the monophyly of several major angiosperm clades, including monocots, eudicots, rosids, asterids, eurosids II, euasterids I, and euasterids II. Conclusion The carrot plastid genome contains a number of dispersed direct and inverted repeats scattered throughout coding and non-coding regions. This is the first sequenced plastid genome of the family Apiaceae and only the second published genome sequence of the species-rich euasterid II clade. Both MP and ML trees provide very strong support (100% bootstrap) for the sister relationship of Daucus with Panax in the euasterid II clade. These results provide the best taxon sampling of complete chloroplast genomes and the strongest support yet for the sister relationship of Caryophyllales to the asterids. The availability of the complete plastid genome sequence should facilitate improved transformation efficiency and foreign gene expression in carrot through utilization of endogenous flanking sequences and regulatory elements.

Published
2006
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45. Passifloraplastome sequencing reveals widespread genomic rearrangements

Author

Rabah, Samar O., primary, Shrestha, Bikash, additional, Hajrah, Nahid H., additional, Sabir, Mumdooh J., additional, Alharby, Hesham F., additional, Sabir, Mernan J., additional, Alhebshi, Alawiah M., additional, Sabir, Jamal S.M., additional, Gilbert, Lawrence E., additional, Ruhlman, Tracey A., additional, and Jansen, Robert K., additional

Published
2018
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49. Passiflora plastome sequencing reveals widespread genomic rearrangements.

Author

Rabah, Samar O., Alharby, Hesham F., Sabir, Mernan J., Shrestha, Bikash, Gilbert, Lawrence E., Ruhlman, Tracey A., Jansen, Robert K., Hajrah, Nahid H., Alhebshi, Alawiah M., Sabir, Jamal S.M., and Sabir, Mumdooh J.

Subjects
PASSIFLORA, PLASTIDS, GENOMES, NUCLEOTIDE sequencing, HOMOPLASY
Abstract

Although past studies have included Passiflora among angiosperm lineages with highly rearranged plastid genomes (plastomes), knowledge about plastome organization in the genus is limited. So far only one draft and one complete plastome have been published. Expanded sampling of Passiflora plastomes is needed to understand the extent of the genomic rearrangement in the genus, which is also unusual in having biparental plastid inheritance and plastome‐genome incompatibility. We sequenced 15 Passiflora plastomes using either Illumina paired‐end or shotgun cloning and Sanger sequencing approaches. Assembled plastomes were annotated using Dual Organellar GenoMe Annotator (DOGMA) and tRNAscan‐SE. The Populus trichocarpa plastome was used as a reference to estimate genomic rearrangements in Passiflora by performing whole genome alignment in progressiveMauve. The phylogenetic distribution of rearrangements was plotted on the maximum likelihood tree generated from 64 plastid encoded protein genes. Inverted repeat (IR) expansion/contraction and loss of the two largest hypothetical open reading frames, ycf1 and ycf2, account for most plastome size variation, which ranges from 139 262 base pairs (bp) in P. biflora to 161 494 bp in P. pittieri. Passiflora plastomes have experienced numerous inversions, gene and intron losses along with multiple independent IR expansions and contractions resulting in a distinct organization in each of the three subgenera examined. Each Passiflora subgenus has a unique plastome structure in terms of gene content, order and size. The phylogenetic distribution of rearrangements shows that Passiflora has experienced widespread genomic changes, suggesting that such events may not be reliable phylogenetic markers. [ABSTRACT FROM AUTHOR]

Published
2019
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50. The nuclear genome of Rhazya stricta and the evolution of alkaloid diversity in a medically relevant clade of Apocynaceae

Author

Sabir, Jamal S. M., primary, Jansen, Robert K., additional, Arasappan, Dhivya, additional, Calderon, Virginie, additional, Noutahi, Emmanuel, additional, Zheng, Chunfang, additional, Park, Seongjun, additional, Sabir, Meshaal J., additional, Baeshen, Mohammed N., additional, Hajrah, Nahid H., additional, Khiyami, Mohammad A., additional, Baeshen, Nabih A., additional, Obaid, Abdullah Y., additional, Al-Malki, Abdulrahman L., additional, Sankoff, David, additional, El-Mabrouk, Nadia, additional, and Ruhlman, Tracey A., additional

Published
2016
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