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1. Evolution of chloroplast retrograde signaling facilitates green plant adaptation to land

Author

Zhao, Chenchen, Wang, Yuanyuan, Chan, Kai Xun, Marchant, D. Blaine, Franks, Peter J., Randall, David, Tee, Estee E., Chen, Guang, Ramesh, Sunita, Phua, Su Yin, Zhang, Ben, Hills, Adrian, Dai, Fei, Xue, Dawei, Gilliham, Matthew, Tyerman, Steve, Nevo, Eviatar, Wu, Feibo, Zhang, Guoping, Wong, Gane K.-S., Leebens-Mack, James H., Melkonian, Michael, Blatt, Michael R., Soltis, Pamela S., Soltis, Douglas E., Pogson, Barry J., and Chen, Zhong-Hua

Published
2019

3. Anthoceros genomes illuminate the origin of land plants and the unique biology of hornworts

Author

Li, Fay-Wei, Nishiyama, Tomoaki, Waller, Manuel, Frangedakis, Eftychios, Keller, Jean, Li, Zheng, Fernandez-Pozo, Noe, Barker, Michael S., Bennett, Tom, Blázquez, Miguel A., Cheng, Shifeng, Cuming, Andrew C., de Vries, Jan, de Vries, Sophie, Delaux, Pierre-Marc, Diop, Issa S., Harrison, C. Jill, Hauser, Duncan, Hernández-García, Jorge, Kirbis, Alexander, Meeks, John C., Monte, Isabel, Mutte, Sumanth K., Neubauer, Anna, Quandt, Dietmar, Robison, Tanner, Shimamura, Masaki, Rensing, Stefan A., Villarreal, Juan Carlos, Weijers, Dolf, Wicke, Susann, Wong, Gane K.-S., Sakakibara, Keiko, and Szövényi, Péter

Published
2020
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6. Fern genomes elucidate land plant evolution and cyanobacterial symbioses

Author

Li, Fay-Wei, Brouwer, Paul, Carretero-Paulet, Lorenzo, Cheng, Shifeng, de Vries, Jan, Delaux, Pierre-Marc, Eily, Ariana, Koppers, Nils, Kuo, Li-Yaung, Li, Zheng, Simenc, Mathew, Small, Ian, Wafula, Eric, Angarita, Stephany, Barker, Michael S., Bräutigam, Andrea, dePamphilis, Claude, Gould, Sven, Hosmani, Prashant S., Huang, Yao-Moan, Huettel, Bruno, Kato, Yoichiro, Liu, Xin, Maere, Steven, McDowell, Rose, Mueller, Lukas A., Nierop, Klaas G. J., Rensing, Stefan A., Robison, Tanner, Rothfels, Carl J., Sigel, Erin M., Song, Yue, Timilsena, Prakash R., Van de Peer, Yves, Wang, Hongli, Wilhelmsson, Per K. I., Wolf, Paul G., Xu, Xun, Der, Joshua P., Schluepmann, Henriette, Wong, Gane K.-S., and Pryer, Kathleen M.

Published
2018
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7. Genetic Analysis of Physcomitrella patens Identifies ABSCISIC ACID NON-RESPONSIVE , a Regulator of ABA Responses Unique to Basal Land Plants and Required for Desiccation Tolerance

Author

Stevenson, Sean R., Kamisugi, Yasuko, Trinh, Chi H., Schmutz, Jeremy, Jenkins, Jerry W., Grimwood, Jane, Muchero, Wellington, Tuskan, Gerald A., Rensing, Stefan A., Lang, Daniel, Reski, Ralf, Melkonian, Michael, Rothfels, Carl J., Li, Fay-Wei, Larsson, Anders, Wong, Gane K.-S., Edwards, Thomas A., and Cuming, Andrew C.

Published
2016

8. The evolutionary history of ferns inferred from 25 low-copy nuclear genes

Author

Rothfels, Carl J., Li, Fay-Wei, Sigel, Erin M., Huiet, Layne, Larsson, Anders, Burge, Dylan O., Ruhsam, Markus, Deyholos, Michael, Soltis, Douglas E., Stewart,, C. Neal, Shaw, Shane W., Pokorny, Lisa, Chen, Tao, dePamphilis, Claude, DeGironimo, Lisa, Chen, Li, Wei, Xiaofeng, Sun, Xiao, Korall, Petra, Stevenson, Dennis W., Graham, Sean W., Wong, Gane K-S., and Pryer, Kathleen M.

Published
2015

10. The DNA sequence, annotation and analysis of human chromosome 3

Author

Muzny, Donna M., Scherer, Steven E., Kaul, Rajinder, Wang, Jing, Yu, Jun, Sudbrak, Ralf, Buhay, Christian J., Chen, Rui, Cree, Andrew, Ding, Yan, Dugan-Rocha, Shannon, Gill, Rachel, Gunaratne, Preethi, Harris, R. Alan, Hawes, Alicia C., Hernandez, Judith, Hodgson, Anne V., Hume, Jennifer, Jackson, Andrew, Khan, Ziad Mohid, Kovar-Smith, Christie, Lewis, Lora R., Lozado, Ryan J., Metzker, Michael L., Milosavljevic, Aleksandar, Miner, George R., Morgan, Margaret B., Nazareth, Lynne V., Scott, Graham, Sodergren, Erica, Song, Xing-Zhi, Steffen, David, Wei, Sharon, Wheeler, David A., Wright, Mathew W., Worley, Kim C., Yuan, Ye, Zhang, Zhengdong, Adams, Charles Q., Ansari-Lari, M. Ali, Ayele, Mulu, Brown, Mary J., Chen, Guan, Chen, Zhijian, Clendenning, James, Clerc-Blankenburg, Kerstin P., Chen, Runsheng, Chen, Zhu, Davis, Clay, Delgado, Oliver, Dinh, Huyen H., Dong, Wei, Draper, Heather, Ernst, Stephen, Fu, Gang, Gonzalez-Garay, Manuel L., Garcia, Dawn K., Gillett, Will, Gu, Jun, Hao, Bailin, Haugen, Eric, Havlak, Paul, He, Xin, Hennig, Steffen, Hu, Songnian, Huang, Wei, Jackson, Laronda R., Jacob, Leni S., Kelly, Susan H., Kube, Michael, Levy, Ruth, Li, Zhangwan, Liu, Bin, Liu, Jing, Liu, Wen, Lu, Jing, Maheshwari, Manjula, Nguyen, Bao-Viet, Okwuonu, Geoffrey O., Palmeiri, Anthony, Pasternak, Shiran, Perez, Lesette M., Phelps, Karen A., Plopper, Farah J. H., Qiang, Boqin, Raymond, Christopher, Rodriguez, Ruben, Saenphimmachak, Channakhone, Santibanez, Jireh, Shen, Hua, Shen, Yan, Subramanian, Sandhya, Tabor, Paul E., Verduzco, Daniel, Waldron, Lenee, Wang, Jian, Wang, Jun, Wang, Qiaoyan, Williams, Gabrielle A., Wong, Gane K.-S., Yao, Zhijian, Zhang, JingKun, Zhang, Xiuqing, Zhao, Guoping, Zhou, Jianling, Zhou, Yang, contributors, further, Nelson, David, Lehrach, Hans, Reinhardt, Richard, Naylor, Susan L., Yang, Huanming, Olson, Maynard, Weinstock, George, and Gibbs, Richard A.

Subjects
Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): Donna M. Muzny [1]; Steven E. Scherer (corresponding author) [1]; Rajinder Kaul [2]; Jing Wang [3]; Jun Yu [3]; Ralf Sudbrak [4, 5]; Christian J. Buhay [1]; Rui Chen [...]

Published
2006
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11. A complete sequence and comparative analysis of a SARS-associated virus (Isolate BJ01)

Author

Qin, E’de, Zhu, Qingyu, Yu, Man, Fan, Baochang, Chang, Guohui, Si, Bingyin, Yang, Bao’an, Peng, Wenming, Jiang, Tao, Liu, Bohua, Deng, Yongqiang, Liu, Hong, Zhang, Yu, Wang, Cui’e, Li, Yuquan, Gan, Yonghua, Li, Xiaoyu, Lü, Fushuang, Tan, Gang, Cao, Wuchun, Yang, Ruifu, Wang, Jian, Li, Wei, Xu, Zuyuan, Li, Yan, Wu, Qingfa, Lin, Wei, Chen, Weijun, Tang, Lin, Deng, Yajun, Han, Yujun, Li, Changfeng, Lei, Meng, Li, Guoqing, Li, Wenjie, Lü, Hong, Shi, Jianping, Tong, Zongzhong, Zhang, Feng, Li, Songgang, Liu, Bin, Liu, Siqi, Dong, Wei, Wang, Jun, Wong, Gane K-S, Yu, Jun, and Yang, Huanming

Published
2003
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12. Isolation of a Human Betaretrovirus from Patients with Primary Biliary Cholangitis.

Author

Goubran, Mariam, Wang, Weiwei, Indik, Stanislav, Faschinger, Alexander, Wasilenko, Shawn T., Bintner, Jasper, Carpenter, Eric J., Zhang, Guangzhi, Nuin, Paulo, Macintyre, Georgina, Wong, Gane K.-S., and Mason, Andrew L.

Subjects
CHOLANGITIS, MOUSE mammary tumor virus, LYMPHOID tissue, VIRUS diseases, CANCER genes, IN situ hybridization, BREAST, AXILLA
Abstract

A human betaretrovirus (HBRV) has been linked with the autoimmune liver disease, primary biliary cholangitis (PBC), and various cancers, including breast cancer and lymphoma. HBRV is closely related to the mouse mammary tumor virus, and represents the only exogenous betaretrovirus characterized in humans to date. Evidence of infection in patients with PBC has been demonstrated through the identification of proviral integration sites in lymphoid tissue, the major reservoir of infection, as well as biliary epithelium, which is the site of the disease process. Accordingly, we tested the hypothesis that patients with PBC harbor a transmissible betaretrovirus by co-cultivation of PBC patients' lymph node homogenates with the HS578T breast cancer line. Because of the low level of HBRV replication, betaretrovirus producing cells were subcloned to optimize viral isolation and production. Evidence of infection was provided by electron microscopy, RT-PCR, in situ hybridization, cloning of the HBRV proviral genome and demonstration of more than 3400 integration sites. Further evidence of viral transmissibility was demonstrated by infection of biliary epithelial cells. While HBRV did not show a preference for integration proximal to specific genomic features, analyses of common insertion sites revealed evidence of integration proximal to cancer associated genes. These studies demonstrate the isolation of HBRV with features similar to mouse mammary tumor virus and confirm that patients with PBC display evidence of a transmissible viral infection. [ABSTRACT FROM AUTHOR]

Published
2022
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13. The genome of flax (Linum usitatissimum) assembled de novo from short shotgun sequence reads

Author

Wang, Zhiwen, Hobson, Neil, Galindo, Leonardo, Zhu, Shilin, Shi, Daihu, McDill, Joshua, Yang, Linfeng, Hawkins, Simon, Neutelings, Godfrey, Datla, Raju, Lambert, Georgina, Galbraith, David W., Grassa, Christopher J., Geraldes, Armando, Cronk, Quentin C., Cullis, Christopher, Dash, Prasanta K., Kumar, Polumetla A., Cloutier, Sylvie, Sharpe, Andrew G., Wong, Gane K.-S., Wang, Jun, and Deyholos, Michael K.

Published
2012
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15. Genetic insights into the evolution of genera with the eastern Asia–eastern North America floristic disjunction: a transcriptomics analysis.

Author

Melton, Anthony E., Chen, Shichao, Zhao, Yunpeng, Fu, Chengxin, Xiang, Qiu‐Yun (Jenny), Cheng, Shifeng, Wong, Gane K.‐S., Soltis, Pamela S., Soltis, Douglas E., and Gitzendanner, Matthew A.

Subjects
MOLECULAR evolution, SPECIES diversity, SPECIES distribution, GENE ontology, GENETIC speciation
Abstract

Premise: Large disjunctions in species distributions provide excellent opportunities to study processes that shape biogeographic patterns. One such disjunction is the eastern Asia–eastern North America (EA‐ENA) floristic disjunction. For many genera with this disjunction, species richness is greater in EA than in ENA; this pattern has been attributed, in part, to higher rates of molecular evolution and speciation in EA. Longer branch lengths have been found in some EA clades, relative to their ENA sister clades, suggesting that the EA lineages have evolved at a higher rate, possibly due to environmental heterogeneity, potentially contributing to the species richness anomaly. Methods: To evaluate whether rates of molecular evolution are elevated in EA relative to ENA, we used transcriptomes from species in 11 genera displaying this disjunction. Rates of molecular evolution were estimated for up to 385 orthologous nuclear loci per genus. Results: No statistically significant differences were identified in pairwise comparisons between EA and ENA sister species, suggesting equal rates of molecular evolution for both species; the data also suggest similar selection pressures in both regions. For larger genera, evidence likewise argues against more species‐rich clades having higher molecular evolutionary rates, regardless of region. Our results suggest that genes across multiple gene ontology categories are evolving at similar rates under purifying selection in species in both regions. Conclusions: Our data support the hypothesis that greater species richness in EA than ENA is due to factors other than an overall increase in rates of molecular evolution in EA. [ABSTRACT FROM AUTHOR]

Published
2020
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17. Gamma-Retrovirus Integration Marks Cell Type-Specific Cancer Genes: A Novel Profiling Tool in Cancer Genomics

Author

Gilroy, Kathryn L., Terry, Anne, Naseer, Asif, de Ridder, Jeroen, Allahyar, Amin, Wang, Weiwei, Carpenter, Eric, Mason, Andrew, Wong, Gane K-S., Cameron, Ewan R., Kilbey, Anna, and Neil, James C.

Subjects
Science, Virus Integration, DNA transcription, Gene Expression, Biochemistry, Histones, Gene Types, Cell Line, Tumor, Neoplasms, DNA-binding proteins, Breast Tumors, Breast Cancer, Genetics, Medicine and Health Sciences, Animals, Humans, Gene Regulation, Mammalian Genomics, Chromosome Biology, Leukemia Virus, Feline, Biology and Life Sciences, Proteins, Cancers and Neoplasms, Cell Biology, Genomics, Chromatin, Gene Expression Regulation, Neoplastic, Tumor Virus Infections, Oncology, Animal Genomics, Cats, MCF-7 Cells, Medicine, Regulator Genes, Epigenetics, Transcription Initiation Site, Research Article, Genes, Neoplasm, Retroviridae Infections
Abstract

Retroviruses have been foundational in cancer research since early studies identified protooncogenes as targets for insertional mutagenesis. Integration of murine gamma-retroviruses into the host genome favours promoters and enhancers and entails interaction of viral integrase with host BET/bromodomain factors. We report that this integration pattern is conserved in feline leukaemia virus (FeLV), a gamma-retrovirus that infects many human cell types. Analysis of FeLV insertion sites in the MCF-7 mammary carcinoma cell line revealed strong bias towards active chromatin marks with no evidence of significant post-integration growth selection. The most prominent FeLV integration targets had little overlap with the most abundantly expressed transcripts, but were strongly enriched for annotated cancer genes. A meta-analysis based on several gamma-retrovirus integration profiling (GRIP) studies in human cells (CD34+, K562, HepG2) revealed a similar cancer gene bias but also remarkable cell-type specificity, with prominent exceptions including a universal integration hotspot at the long non-coding RNA MALAT1. Comparison of GRIP targets with databases of super-enhancers from the same cell lines showed that these have only limited overlap and that GRIP provides unique insights into the upstream drivers of cell growth. These observations elucidate the oncogenic potency of the gamma-retroviruses and support the wider application of GRIP to identify the genes and growth regulatory circuits that drive distinct cancer types.

Published
2016

18. Evolution of chloroplast retrograde signaling facilitates green plant adaptation to land.

Author

Chenchen Zhao, Yuanyuan Wang, Kai Xun Chan, Marchant, D. Blaine, Franks, Peter J., Randall, David, Tee, Estee E., Guang Chen, Ramesh, Sunita, Su Yin Phua, Ben Zhang, Hills, Adrian, Fei Dai, Dawei Xue, Gilliham, Matthew, Tyerman, Steve, Nevo, Eviatar, Feibo Wu, Guoping Zhang, and Wong, Gane K.-S.

Subjects
CHLOROPLASTS, PLASTIDS, GENE expression, PLANT growth, STOMATA
Abstract

Chloroplast retrograde signaling networks are vital for chloroplast biogenesis, operation, and signaling, including excess light and drought stress signaling. To date, retrograde signaling has been considered in the context of land plant adaptation, but not regarding the origin and evolution of signaling cascades linking chloroplast function to stomatal regulation. We show that key elements of the chloroplast retrograde signaling process, the nucleotide phosphatase (SAL1) and 3'-phosphoadenosine-5'-phosphate (PAP) metabolism, evolved in streptophyte algae--the algal ancestors of land plants. We discover an early evolution of SAL1-PAP chloroplast retrograde signaling in stomatal regulation based on conserved gene and protein structure, function, and enzyme activity and transit peptides of SAL1s in species including flowering plants, the fern Ceratopteris richardii, and the moss Physcomitrella patens. Moreover, we demonstrate that PAP regulates stomatal closure via secondary messengers and ion transport in guard cells of these diverse lineages. The origin of stomata facilitated gas exchange in the earliest land plants. Our findings suggest that the conquest of land by plants was enabled by rapid response to drought stress through the deployment of an ancestral SAL1-PAP signaling pathway, intersecting with the core abscisic acid signaling in stomatal guard cells. [ABSTRACT FROM AUTHOR]

Published
2019
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19. Divergent gene expression levels between diploid and autotetraploid Tolmiea relative to the total transcriptome, the cell, and biomass.

Author

Visger, Clayton J., Wong, Gane K‐S., Zhang, Yong, Soltis, Pamela S., and Soltis, Douglas E.

Subjects
*POLYPLOIDY, *GENE expression, *RNA
Abstract

Premise of the Study: Studies of gene expression and polyploidy are typically restricted to characterizing differences in transcript concentration. Using diploid and autotetraploid Tolmiea, we present an integrated approach for cross‐ploidy comparisons that account for differences in transcriptome size and cell density and make multiple comparisons of transcript abundance. Methods: We use RNA spike‐in standards in concert with cell size and density to identify and correct for differences in transcriptome size and compare levels of gene expression across multiple scales: per transcriptome, per cell, and per biomass. Key Results: In total, ~17% of all loci were identified as differentially expressed (DEGs) between the diploid and autopolyploid species. The per‐transcriptome normalization, the method researchers typically use, captured the fewest DEGs (58% of total DEGs) and failed to detect any DEGs not found by the alternative normalizations. When transcript abundance was normalized per biomass and per cell, ~66% and ~82% of the total DEGs were recovered, respectively. The discrepancy between per‐transcriptome and per‐cell recovery of DEGs occurs because per‐transcriptome normalizations are concentration‐based and therefore blind to differences in transcriptome size. Conclusions: While each normalization enables valid comparisons at biologically relevant scales, a holistic comparison of multiple normalizations provides additional explanatory power not available from any single approach. Notably, autotetraploid loci tend to conserve diploid‐like transcript abundance per biomass through increased gene expression per cell, and these loci are enriched for photosynthesis‐related functions. [ABSTRACT FROM AUTHOR]

Published
2019
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20. Large Insert Genome Analysis (LIGAN) Technology Detects Structural Variation in Pseudomonas aeruginosa Clinical Strains from Cystic Fibrosis Patients1

Author

Hayden, Hillary S., Gillett, Will, Saenphimmachak, Channakhone, Lim, Regina, Zhou, Yang, Jacobs, Michael A., Chang, Jean, Rohmer, Laurence, D’Argenio, David A., Palmieri, Anthony, Levy, Ruth, Haugen, Eric, Wong, Gane K., Brittnacher, Mitch J., Burns, Jane L., Miller, Samuel I., Olson, Maynard V., and Kaul, Rajinder

Subjects
Recombination, Genetic, Mutagenesis, Insertional, Base Sequence, Cystic Fibrosis, DNA Mutational Analysis, Molecular Sequence Data, Pseudomonas aeruginosa, Genetic Variation, Humans, DNA Fingerprinting, Article, Genome, Bacterial, Sequence Deletion
Abstract

Large Insert Genome Analysis (LIGAN) is a broadly applicable, high-throughput technology designed to characterize genome-scale structural variation. Fosmid paired-end sequences and DNA fingerprints from a query genome are compared to a reference sequence using the Genomic Variation Analysis (GenVal) suite of software tools in order to pinpoint locations of insertions, deletions and rearrangements. Fosmids spanning regions that contain new structural variants can then be sequenced. Clonal pairs of Pseudomonas aeruginosa isolates from four cystic fibrosis patients were used to validate LIGAN technology. Approximately 1.5 Mb of inserted sequences were identified, including 742,869 bp containing 651 ORFs that are absent from published P. aeruginosa genomes. Six rearrangement break points and 220 kb of deleted sequences were also identified. Our study expands the “genome universe” of P. aeruginosa and validates a technology that complements emerging, short-read sequencing methods that are better suited to characterizing single-nucleotide polymorphism than structural variation.

Published
2008

21. Modeling the Colchicum autumnale Tubulin and a Comparison of Its Interaction with Colchicine to Human Tubulin.

Author

Spasevska, Ivana, Ayoub, Ahmed T., Winter, Philip, Preto, Jordane, Wong, Gane K.-S., Dumontet, Charles, and Tuszynski, Jack A.

Subjects
AUTUMN crocus, CELL death, TUBULINS, COLCHICINE, MICROTUBULES, APOPTOSIS
Abstract

Tubulin is the target for many small-molecule natural compounds, which alter microtubules dynamics, and lead to cell cycle arrest and apoptosis. One of these compounds is colchicine, a plant alkaloid produced by Colchicum autumnale. While C. autumnale produces a potent cytotoxin, colchicine, and expresses its target protein, it is immune to colchicine's cytotoxic action and the mechanism of this resistance is hitherto unknown. In the present paper, the molecular mechanisms responsible for colchicine resistance in C. autumnale are investigated and compared to human tubulin. To this end, homology models for C. autumnale α-β tubulin heterodimer are created and molecular dynamics (MD) simulations together with molecular mechanics Poisson-Boltzmann calculations (MM/PBSA) are performed to determine colchicine's binding affinity for tubulin. Using our molecular approach, it is shown that the colchicine-binding site in C. autumnale tubulin contains a small number of amino acid substitutions compared to human tubulin. However, these substitutions induce significant reduction in the binding affinity for tubulin, and subsequently fewer conformational changes in its structure result. It is suggested that such small conformational changes are insufficient to profoundly disrupt microtubule dynamics, which explains the high resistance to colchicine by C. autumnale. [ABSTRACT FROM AUTHOR]

Published
2017
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22. Evolutionary Analysis of the LAFL Genes Involved in the Land Plant Seed Maturation Program.

Author

Jing-Dan Han, Xia Li, Chen-Kun Jiang, Wong, Gane K.-S., Rothfels, Carl J., and Guang-Yuan Rao

Subjects
PLANT genetics, SEED development, PHANEROGAMS
Abstract

Seeds are one of the most significant innovations in the land plant lineage, critical to the diversification and adaptation of plants to terrestrial environments. From perspective of seed evo-devo, the most crucial developmental stage in this innovation is seed maturation, which includes accumulation of storage reserves, acquisition of desiccation tolerance, and induction of dormancy. Based on previous studies of seed development in the model plant Arabidopsis thaliana, seed maturation is mainly controlled by the LAFL regulatory network, which includes LEAFY COTYLEDON1 (LEC1) and LEC1-LIKE (L1L) of the NF-YB gene family, and ABSCISIC ACID INSENSITIVE3 (ABI3), FUSCA3 (FUS3), and LEC2 (LEAFY COTYLEDON2) of the B3-AFL gene family. In the present study, molecular evolution of these LAFL genes was analyzed, using representative species from across the major plant lineages. Additionally, to elucidate the molecular mechanisms of the seed maturation program, co-expression pattern analyses of LAFL genes were conducted across vascular plants. The results show that the origin of AFL gene family dates back to a common ancestor of bryophytes and vascular plants, while LEC1-type genes are only found in vascular plants. LAFL genes of vascular plants likely specify their co-expression in two different developmental phrases, spore and seed maturation, respectively, and expression patterns vary slightly across the major vascular plants lineages. All the information presented in this study will provide insights into the origin and diversification of seed plants. [ABSTRACT FROM AUTHOR]

Published
2017
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23. Characterization of the Gut Microbiome Using 16S or Shotgun Metagenomics.

Author

Jovel, Juan, Patterson, Jordan, Weiwei Wang, Hotte, Naomi, O'Keefe, Sandra, Mitchel, Troy, Perry, Troy, Kao, Dina, Mason, Andrew L., Madsen, Karen L., and Wong, Gane K.-S.

Subjects
GUT microbiome, BIOINFORMATICS, RIBOSOMAL RNA
Abstract

The advent of next generation sequencing (NGS) has enabled investigations of the gut microbiome with unprecedented resolution and throughput. This has stimulated the development of sophisticated bioinformatics tools to analyze the massive amounts of data generated. Researchers therefore need a clear understanding of the key concepts required for the design, execution and interpretation of NGS experiments on microbiomes. We conducted a literature review and used our own data to determine which approaches work best. The two main approaches for analyzing the microbiome, 16S ribosomal RNA (rRNA) gene amplicons and shotgun metagenomics, are illustrated with analyses of libraries designed to highlight their strengths and weaknesses. Several methods for taxonomic classification of bacterial sequences are discussed. We present simulations to assess the number of sequences that are required to perform reliable appraisals of bacterial community structure. To the extent that fluctuations in the diversity of gut bacterial populations correlate with health and disease, we emphasize various techniques for the analysis of bacterial communities within samples (α-diversity) and between samples (β-diversity). Finally, we demonstrate techniques to infer the metabolic capabilities of a bacteria community from these 16S and shotgun data. [ABSTRACT FROM AUTHOR]

Published
2016
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24. Lineage-specific gene radiations underlie the evolution of novel betalain pigmentation in Caryophyllales.

Author

Brockington, Samuel F., Yang, Ya, Gandia‐Herrero, Fernando, Covshoff, Sarah, Hibberd, Julian M., Sage, Rowan F., Wong, Gane K. S., Moore, Michael J., and Smith, Stephen A.

Subjects
CARYOPHYLLALES, BETALAINS, ANTHOCYANINS, DIOXYGENASES, PLANT phylogeny
Abstract

Betalain pigments are unique to the Caryophyllales and structurally and biosynthetically distinct from anthocyanins. Two key enzymes within the betalain synthesis pathway have been identified: 4,5-dioxygenase ( DODA) that catalyzes the formation of betalamic acid and CYP76 AD1, a cytochrome P450 gene that catalyzes the formation of cyclo- DOPA., We performed phylogenetic analyses to reveal the evolutionary history of the DODA and CYP76 AD1 lineages and in the context of an ancestral reconstruction of pigment states we explored the evolution of these genes in relation to the complex evolution of pigments in Caryophylalles., Duplications within the CYP76 AD1 and DODA lineages arose just before the origin of betalain pigmentation in the core Caryophyllales. The duplications gave rise to DODA-α and CYP76 AD1-α isoforms that appear specific to betalain synthesis. Both betalain-specific isoforms were then lost or downregulated in the anthocyanic Molluginaceae and Caryophyllaceae., Our findings suggest a single origin of the betalain synthesis pathway, with neofunctionalization following gene duplications in the CYP76 AD1 and DODA lineages. Loss of DODA-α and CYP76 AD1-α in anthocyanic taxa suggests that betalain pigmentation has been lost twice in Caryophyllales, and exclusion of betalain pigments from anthocyanic taxa is mediated through gene loss or downregulation. [Correction added after online publication 13 May 2015: in the last two paragraphs of the Summary the gene name CYP761A was changed to CYP76AD1.] [ABSTRACT FROM AUTHOR]

Published
2015
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25. The origin and evolution of phototropins.

Author

Fay-Wei Li, Pryer, Kathleen M., Rothfels, Carl J., Melkonian, Michael, Villarreal, Juan C., Stevenson, Dennis W., Graham, Sean W., Wong, Gane K.-S., and Mathews, Sarah

Subjects
PHOTOTROPISM, CONVERGENT evolution, PLANT photoreceptors, PLANTS
Abstract

Plant phototropism, the ability to bend toward or away from light, is predominantly controlled by blue-light photoreceptors, the phototropins. Although phototropins have been well-characterized in Arabidopsis thaliana, their evolutionary history is largely unknown. In this study, we complete an in-depth survey of phototropin homologs across land plants and algae using newly available transcriptomic and genomic data. We show that phototropins originated in an ancestor of Viridiplantae (land plants + green algae). Phototropins repeatedly underwent independent duplications in most major land-plant lineages (mosses, lycophytes, ferns, and seed plants), but remained single-copy genes in liverworts and hornworts--an evolutionary pattern shared with another family of photoreceptors, the phytochromes. Following each major duplication event, the phototropins differentiated in parallel, resulting in two specialized, yet partially overlapping, functional forms that primarily mediate either low- or high-light responses. Our detailed phylogeny enables us to not only uncover new phototropin lineages, but also link our understanding of phototropin function in Arabidopsis with what is known in Adiantum and Physcomitrella (the major model organisms outside of flowering plants). We propose that the convergent functional divergences of phototropin paralogs likely contributed to the success of plants through time in adapting to habitats with diverse and heterogeneous light conditions. [ABSTRACT FROM AUTHOR]

Published
2015
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26. The Origin and Evolution of the Plant Cell Surface: Algal Integrin-Associated ProteinsandaNewFamily of Integrin-Like Cytoskeleton-ECM Linker Proteins.

Author

Becker, Burkhard, Doan, Jean Michel, Wustman, Brandon, Carpenter, Eric J., Li Chen, Yong Zhang, Wong, Gane K.-S., and Melkonian, Michael

Subjects
CELL membranes, CYTOSKELETON, PROTEINS, GREEN algae, FLAGELLATA
Abstract

The extracellular matrix of scaly green flagellates consists of small organic scales consisting of polysaccharides and scale-associated proteins (SAPs).Molecular phylogenies have shown that these organisms represent the ancestral stock of flagellates from which all green plants (Viridiplantae) evolved. The molecular characterization of four different SAPs is presented. Three SAPs are type-2 membrane proteins with an arginine/alanine-rich short cytoplasmic tail and an extracellular domain that is most likely of bacterial origin. The fourth protein is a filamin-like protein. In addition, we report the presence of proteins similar to the integrin-associated proteins α-actinin (in transcriptomes of glaucophytes and some viridiplants), LIM-domain proteins, and integrin-associated kinase in transcriptomes of viridiplants, glaucophytes, and rhodophytes. We propose that themembrane proteins identified are the predicted linkers between scales and the cytoskeleton. These proteins are present in many green algae but are apparently absent from embryophytes. These proteins represent a new protein family we have termed gralins for green algal integrins. Gralins are absent from embryophytes. A model for the evolution of the cell surface proteins in Plantae is discussed. [ABSTRACT FROM AUTHOR]

Published
2015
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29. Data access for the 1,000 Plants (1KP) project

Author

Matasci, Naim, Hung, Ling-Hong, Yan, Zhixiang, Carpenter, Eric J, Wickett, Norman J, Mirarab, Siavash, Nguyen, Nam, Warnow, Tandy, Ayyampalayam, Saravanaraj, Barker, Michael, Burleigh, J G, Gitzendanner, Matthew A, Wafula, Eric, Der, Joshua P, DePamphilis, Claude W, Roure, Béatrice, Philippe, Hervé, Ruhfel, Brad R, Miles, Nicholas W, Graham, Sean W, Mathews, Sarah, Surek, Barbara, Melkonian, Michael, Soltis, Douglas E, Soltis, Pamela S, Rothfels, Carl, Pokorny, Lisa, Shaw, Jonathan A, DeGironimo, Lisa, Stevenson, Dennis W, Villarreal, Juan C, Chen, Tao, Kutchan, Toni M, Rolf, Megan, Baucom, Regina S, Deyholos, Michael K, Samudrala, Ram, Tian, Zhijian, Wu, Xiaolei, Sun, Xiao, Zhang, Yong, Wang, Jun, Leebens-Mack, Jim, and Wong, Gane K

Subjects
15. Life on land
Abstract

The 1,000 plants (1KP) project is an international multi-disciplinary consortium that has generated transcriptome data from over 1,000 plant species, with exemplars for all of the major lineages across the Viridiplantae (green plants) clade. Here, we describe how to access the data used in a phylogenomics analysis of the first 85 species, and how to visualize our gene and species trees. Users can develop computational pipelines to analyse these data, in conjunction with data of their own that they can upload. Computationally estimated protein-protein interactions and biochemical pathways can be visualized at another site. Finally, we comment on our future plans and how they fit within this scalable system for the dissemination, visualization, and analysis of large multi-species data sets.

30. The Expanding Family of Natural Anion Channelrhodopsins Reveals Large Variations in Kinetics, Conductance, and Spectral Sensitivity.

Author

Govorunova, Elena G., Sineshchekov, Oleg A., Rodarte, Elsa M., Janz, Roger, Morelle, Olivier, Melkonian, Michael, Wong, Gane K.-S., and Spudich, John L.

Abstract

Natural anion channelrhodopsins (ACRs) discovered in the cryptophyte alga Guillardia theta generate large hyperpolarizing currents at membrane potentials above the Nernst equilibrium potential for Cl and thus can be used as efficient inhibitory tools for optogenetics. We have identified and characterized new ACR homologs in different cryptophyte species, showing that all of them are anion-selective, and thus expanded this protein family to 20 functionally confirmed members. Sequence comparison of natural ACRs and engineered Cl-conducting mutants of cation channelrhodopsins (CCRs) showed radical differences in their anion selectivity filters. In particular, the Glu90 residue in channelrhodopsin 2, which needed to be mutated to a neutral or alkaline residue to confer anion selectivity to CCRs, is nevertheless conserved in all of the ACRs identified. The new ACRs showed a large variation of the amplitude, kinetics, and spectral sensitivity of their photocurrents. A notable variant, designated 'ZipACR', is particularly promising for inhibitory optogenetics because of its combination of larger current amplitudes than those of previously reported ACRs and an unprecedentedly fast conductance cycle (current half-decay time 2-4 ms depending on voltage). ZipACR expressed in cultured mouse hippocampal neurons enabled precise photoinhibition of individual spikes in trains of up to 50 Hz frequency. [ABSTRACT FROM AUTHOR]

Published
2017
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31. Anthoceros genomes illuminate the origin of land plants and the unique biology of hornworts

Author

Isabel Monte, Pierre-Marc Delaux, Zheng Li, Dolf Weijers, Noe Fernandez-Pozo, Jan de Vries, Alexander Kirbis, Shifeng Cheng, Tanner A. Robison, Keiko Sakakibara, Jill C. Harrison, Sumanth K. Mutte, Péter Szövényi, Stefan A. Rensing, Tomoaki Nishiyama, Sophie de Vries, Masaki Shimamura, Tom Bennett, Miguel A. Blázquez, Eftychios Frangedakis, Jorge Hernández-García, Manuel Waller, Duncan A. Hauser, Juan Carlos Villarreal, John C. Meeks, Gane Ka-Shu Wong, Jean Keller, Dietmar Quandt, Michael S. Barker, Fay-Wei Li, Susann Wicke, Andrew C. Cuming, Issa S. Diop, Anna Neubauer, Boyce Thompson Institute [Ithaca], Cornell University [New York], Kanazawa University (KU), Universität Zürich [Zürich] = University of Zurich (UZH), Department of Plant, University of Oxford [Oxford], Laboratoire de Recherche en Sciences Végétales (LRSV), Université Toulouse III - Paul Sabatier (UT3), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Centre National de la Recherche Scientifique (CNRS), Orange Labs, Departamento de Biología Molecular y Bioquímica, Facultad de Ciencias, Campus de Teatinos s/n, Universidad de Málaga [Málaga] = University of Málaga [Málaga], Instituto de Biología Molecular y Celular de Plantas (UPV-CSIC), Instituto de Biología Molecular y Celular de Plantas, Chinese Academy of Agricultural Sciences (CAAS), Evolution des Interactions Plantes-Microorganismes, Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Centre National de la Recherche Scientifique (CNRS)-Université Toulouse III - Paul Sabatier (UT3), University of Bristol [Bristol], Nees Institut for Plant Biodiversity, Rheinische Friedrich-Wilhelms-Universität Bonn, Faculty of Biology, University of Freiburg [Freiburg], Wageningen University and Research Centre (WUR), Department of Systematic and Evolutionary Botany, University of Vienna [Vienna], Li, Fay-Wei [0000-0002-0076-0152], Nishiyama, Tomoaki [0000-0003-1279-7806], Keller, Jean [0000-0002-5198-0331], Fernandez-Pozo, Noe [0000-0002-6489-5566], Barker, Michael S [0000-0001-7173-1319], Bennett, Tom [0000-0003-1612-4019], Blázquez, Miguel A [0000-0001-5743-0448], Cuming, Andrew C [0000-0003-2562-2052], de Vries, Jan [0000-0003-3507-5195], de Vries, Sophie [0000-0002-5267-8935], Delaux, Pierre-Marc [0000-0002-6211-157X], Hernández-García, Jorge [0000-0003-2526-8639], Monte, Isabel [0000-0002-7058-8343], Mutte, Sumanth K [0000-0003-3376-2354], Rensing, Stefan A [0000-0002-0225-873X], Villarreal, Juan Carlos [0000-0002-0770-1446], Weijers, Dolf [0000-0003-4378-141X], Wicke, Susann [0000-0001-5785-9500], Wong, Gane K-S [0000-0001-6108-5560], Sakakibara, Keiko [0000-0003-4420-9351], Szövényi, Péter [0000-0002-0324-4639], Apollo - University of Cambridge Repository, University of Zurich, and Li, Fay-Wei

Subjects
MESH: Genome, Plant, Crop and Pasture Production, 0106 biological sciences, Anthoceros, Evolution, [SDV]Life Sciences [q-bio], Lineage (evolution), Biochemie, Plant Biology, MESH: Biological Evolution, Anthocerotophyta, Plant Science, 580 Plants (Botany), Biology, Biochemistry, 01 natural sciences, Genome, Article, Pyrenoid, UFSP13-7 Evolution in Action: From Genomes to Ecosystems, Hornwort, 03 medical and health sciences, 1110 Plant Science, Genetics, Life Science, 10211 Zurich-Basel Plant Science Center, MESH: Anthocerotophyta / genetics, Clade, Life History Traits, 030304 developmental biology, 0303 health sciences, MESH: Life History Traits, Sporophyte, Plant, Genomics, 15. Life on land, biology.organism_classification, Biological Evolution, 10121 Department of Systematic and Evolutionary Botany, Evolutionary biology, Embryophyta, Bryophyte, MESH: Embryophyta / physiology, EPS, Plant sciences, Genome, Plant, 010606 plant biology & botany
Abstract

Hornworts comprise a bryophyte lineage that diverged from other extant land plants >400 million years ago and bears unique biological features, including a distinct sporophyte architecture, cyanobacterial symbiosis and a pyrenoid-based carbon-concentrating mechanism (CCM). Here, we provide three high-quality genomes of Anthoceros hornworts. Phylogenomic analyses place hornworts as a sister clade to liverworts plus mosses with high support. The Anthoceros genomes lack repeat-dense centromeres as well as whole-genome duplication, and contain a limited transcription factor repertoire. Several genes involved in angiosperm meristem and stomatal function are conserved in Anthoceros and upregulated during sporophyte development, suggesting possible homologies at the genetic level. We identified candidate genes involved in cyanobacterial symbiosis and found that LCIB, a Chlamydomonas CCM gene, is present in hornworts but absent in other plant lineages, implying a possible conserved role in CCM function. We anticipate that these hornwort genomes will serve as essential references for future hornwort research and comparative studies across land plants., Analyses of three high-quality genomes of Anthoceros hornworts place hornworts as a sister clade to the lineage including liverworts and mosses, and provide insights into the unique biological features of hornworts.

Published
2020

32. Cation and Anion Channelrhodopsins: Sequence Motifs and Taxonomic Distribution.

Author

Govorunova EG, Sineshchekov OA, Li H, Wang Y, Brown LS, Palmateer A, Melkonian M, Cheng S, Carpenter E, Patterson J, Wong GK, and Spudich JL

Subjects
Ion Channel Gating, Photochemical Processes, Anions, Cations, Channelrhodopsins classification, Channelrhodopsins genetics, Cryptophyta chemistry, Cryptophyta genetics, Phylogeny
Abstract

Cation and anion channelrhodopsins (CCRs and ACRs, respectively) primarily from two algal species, Chlamydomonas reinhardtii and Guillardia theta, have become widely used as optogenetic tools to control cell membrane potential with light. We mined algal and other protist polynucleotide sequencing projects and metagenomic samples to identify 75 channelrhodopsin homologs from four channelrhodopsin families, including one revealed in dinoflagellates in this study. We carried out electrophysiological analysis of 33 natural channelrhodopsin variants from different phylogenetic lineages and 10 metagenomic homologs in search of sequence determinants of ion selectivity, photocurrent desensitization, and spectral tuning in channelrhodopsins. Our results show that association of a reduced number of glutamates near the conductance path with anion selectivity depends on a wider protein context, because prasinophyte homologs with a glutamate pattern identical to that in cryptophyte ACRs are cation selective. Desensitization is also broadly context dependent, as in one branch of stramenopile ACRs and their metagenomic homologs, its extent roughly correlates with phylogenetic relationship of their sequences. Regarding spectral tuning, we identified two prasinophyte CCRs with red-shifted spectra to 585 nm. They exhibit a third residue pattern in their retinal-binding pockets distinctly different from those of the only two types of red-shifted channelrhodopsins known (i.e., the CCR Chrimson and RubyACRs). In cryptophyte ACRs we identified three specific residue positions in the retinal-binding pocket that define the wavelength of their spectral maxima. Lastly, we found that dinoflagellate rhodopsins with a TCP motif in the third transmembrane helix and a metagenomic homolog exhibit channel activity. IMPORTANCE Channelrhodopsins are widely used in neuroscience and cardiology as research tools and are considered prospective therapeutics, but their natural diversity and mechanisms remain poorly characterized. Genomic and metagenomic sequencing projects are producing an ever-increasing wealth of data, whereas biophysical characterization of the encoded proteins lags behind. In this study, we used manual and automated patch clamp recording of representative members of four channelrhodopsin families, including a family in dinoflagellates that we report in this study. Our results contribute to a better understanding of molecular determinants of ionic selectivity, photocurrent desensitization, and spectral tuning in channelrhodopsins.

Published
2021
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33. Conductance Mechanisms of Rapidly Desensitizing Cation Channelrhodopsins from Cryptophyte Algae.

Author

Sineshchekov OA, Govorunova EG, Li H, Wang Y, Melkonian M, Wong GK, Brown LS, and Spudich JL

Subjects
Cryptophyta classification, Electrophysiological Phenomena, Gene Expression Regulation, Membrane Potentials, Mutagenesis, Optogenetics, Patch-Clamp Techniques, Photochemical Processes, Phylogeny, Spectrum Analysis, Cations metabolism, Channelrhodopsins metabolism, Cryptophyta physiology, Ion Channel Gating
Abstract

Channelrhodopsins guide algal phototaxis and are widely used as optogenetic probes for control of membrane potential with light. "Bacteriorhodopsin-like" cation channelrhodopsins (BCCRs) from cryptophytes differ in primary structure from other CCRs, lacking usual residues important for their cation conductance. Instead, the sequences of BCCR match more closely those of rhodopsin proton pumps, containing residues responsible for critical proton transfer reactions. We report 19 new BCCRs which, together with the earlier 6 known members of this family, form three branches (subfamilies) of a phylogenetic tree. Here, we show that the conductance mechanisms in two subfamilies differ with respect to involvement of the homolog of the proton donor in rhodopsin pumps. Two BCCRs from the genus Rhodomonas generate photocurrents that rapidly desensitize under continuous illumination. Using a combination of patch clamp electrophysiology, absorption, Raman spectroscopy, and flash photolysis, we found that the desensitization is due to rapid accumulation of a long-lived nonconducting intermediate of the photocycle with unusually blue-shifted absorption with a maximum at 330 nm. These observations reveal diversity within the BCCR family and contribute to deeper understanding of their independently evolved cation channel function. IMPORTANCE Cation channelrhodopsins, light-gated channels from flagellate green algae, are extensively used as optogenetic photoactivators of neurons in research and recently have progressed to clinical trials for vision restoration. However, the molecular mechanisms of their photoactivation remain poorly understood. We recently identified cryptophyte cation channelrhodopsins, structurally different from those of green algae, which have separately evolved to converge on light-gated cation conductance. This study reveals diversity within this new protein family and describes a subclade with unusually rapid desensitization that results in short transient photocurrents in continuous light. Such transient currents have not been observed in the green algae channelrhodopsins and are potentially useful in optogenetic protocols. Kinetic UV-visible (UV-vis) spectroscopy and photoelectrophysiology reveal that the desensitization is caused by rapid accumulation of a nonconductive photointermediate in the photochemical reaction cycle. The absorption maximum of the intermediate is 330 nm, the shortest wavelength reported in any rhodopsin, indicating a novel chromophore structure., (Copyright © 2020 Sineshchekov et al.)

Published
2020
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34. Organellomic data sets confirm a cryptic consensus on (unrooted) land-plant relationships and provide new insights into bryophyte molecular evolution.

Author

Bell D, Lin Q, Gerelle WK, Joya S, Chang Y, Taylor ZN, Rothfels CJ, Larsson A, Villarreal JC, Li FW, Pokorny L, Szövényi P, Crandall-Stotler B, DeGironimo L, Floyd SK, Beerling DJ, Deyholos MK, von Konrat M, Ellis S, Shaw AJ, Chen T, Wong GK, Stevenson DW, Palmer JD, and Graham SW

Subjects
Consensus, Likelihood Functions, Phylogeny, Bryophyta, Evolution, Molecular
Abstract

Premise: Phylogenetic trees of bryophytes provide important evolutionary context for land plants. However, published inferences of overall embryophyte relationships vary considerably. We performed phylogenomic analyses of bryophytes and relatives using both mitochondrial and plastid gene sets, and investigated bryophyte plastome evolution., Methods: We employed diverse likelihood-based analyses to infer large-scale bryophyte phylogeny for mitochondrial and plastid data sets. We tested for changes in purifying selection in plastid genes of a mycoheterotrophic liverwort (Aneura mirabilis) and a putatively mycoheterotrophic moss (Buxbaumia), and compared 15 bryophyte plastomes for major structural rearrangements., Results: Overall land-plant relationships conflict across analyses, generally weakly. However, an underlying (unrooted) four-taxon tree is consistent across most analyses and published studies. Despite gene coverage patchiness, relationships within mosses, liverworts, and hornworts are largely congruent with previous studies, with plastid results generally better supported. Exclusion of RNA edit sites restores cases of unexpected non-monophyly to monophyly for Takakia and two hornwort genera. Relaxed purifying selection affects multiple plastid genes in mycoheterotrophic Aneura but not Buxbaumia. Plastid genome structure is nearly invariant across bryophytes, but the tufA locus, presumed lost in embryophytes, is unexpectedly retained in several mosses., Conclusions: A common unrooted tree underlies embryophyte phylogeny, [(liverworts, mosses), (hornworts, vascular plants)]; rooting inconsistency across studies likely reflects substantial distance to algal outgroups. Analyses combining genomic and transcriptomic data may be misled locally for heavily RNA-edited taxa. The Buxbaumia plastome lacks hallmarks of relaxed selection found in mycoheterotrophic Aneura. Autotrophic bryophyte plastomes, including Buxbaumia, hardly vary in overall structure., (© 2019 Botanical Society of America.)

Published
2020
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35. Extending the Time Domain of Neuronal Silencing with Cryptophyte Anion Channelrhodopsins.

Author

Govorunova EG, Sineshchekov OA, Hemmati R, Janz R, Morelle O, Melkonian M, Wong GK, and Spudich JL

Subjects
Action Potentials, Animals, Anions, Cells, Cultured, Channelrhodopsins genetics, Cryptophyta, HEK293 Cells, Hippocampus physiology, Humans, Mice, Channelrhodopsins physiology, Ion Channel Gating, Neurons physiology, Optogenetics methods
Abstract

Optogenetic inhibition of specific neuronal types in the brain enables analysis of neural circuitry and is promising for the treatment of a number of neurological disorders. Anion channelrhodopsins (ACRs) from the cryptophyte alga Guillardia theta generate larger photocurrents than other available inhibitory optogenetic tools, but more rapid channels are needed for temporally precise inhibition, such as single-spike suppression, of high-frequency firing neurons. Faster ACRs have been reported, but their potential advantages for time-resolved inhibitory optogenetics have not so far been verified in neurons. We report RapACR, nicknamed so for "rapid," an ACR from Rhodomonas salina , that exhibits channel half-closing times below 10 ms and achieves equivalent inhibition at 50-fold lower light intensity in lentivirally transduced cultured mouse hippocampal neurons as the second-generation engineered Cl - -conducting channelrhodopsin iC++. The upper limit of the time resolution of neuronal silencing with RapACR determined by measuring the dependence of spiking recovery after photoinhibition on the light intensity was calculated to be 100 Hz, whereas that with the faster of the two G. theta ACRs was 13 Hz. Further acceleration of RapACR channel kinetics was achieved by site-directed mutagenesis of a single residue in transmembrane helix 3 (Thr111 to Cys). We also show that mutation of another ACR (Cys to Ala at the same position) with a greatly extended lifetime of the channel open state acts as a bistable photochromic tool in mammalian neurons. These molecules extend the time domain of optogenetic neuronal silencing while retaining the high light sensitivity of Guillardia ACRs.

Published
2018
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36. Evolutionary Analysis of the LAFL Genes Involved in the Land Plant Seed Maturation Program.

Author

Han JD, Li X, Jiang CK, Wong GK, Rothfels CJ, and Rao GY

Abstract

Seeds are one of the most significant innovations in the land plant lineage, critical to the diversification and adaptation of plants to terrestrial environments. From perspective of seed evo-devo, the most crucial developmental stage in this innovation is seed maturation, which includes accumulation of storage reserves, acquisition of desiccation tolerance, and induction of dormancy. Based on previous studies of seed development in the model plant Arabidopsis thaliana , seed maturation is mainly controlled by the LAFL regulatory network, which includes LEAFY COTYLEDON1 ( LEC1 ) and LEC1-LIKE ( L1L ) of the NF-YB gene family, and ABSCISIC ACID INSENSITIVE3 ( ABI3 ), FUSCA3 ( FUS3 ), and LEC2 ( LEAFY COTYLEDON2 ) of the B3- AFL gene family. In the present study, molecular evolution of these LAFL genes was analyzed, using representative species from across the major plant lineages. Additionally, to elucidate the molecular mechanisms of the seed maturation program, co-expression pattern analyses of LAFL genes were conducted across vascular plants. The results show that the origin of AFL gene family dates back to a common ancestor of bryophytes and vascular plants, while LEC1 -type genes are only found in vascular plants. LAFL genes of vascular plants likely specify their co-expression in two different developmental phrases, spore and seed maturation, respectively, and expression patterns vary slightly across the major vascular plants lineages. All the information presented in this study will provide insights into the origin and diversification of seed plants.

Published
2017
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37. The origin and evolution of phototropins.

Author

Li FW, Rothfels CJ, Melkonian M, Villarreal JC, Stevenson DW, Graham SW, Wong GK, Mathews S, and Pryer KM

Abstract

Plant phototropism, the ability to bend toward or away from light, is predominantly controlled by blue-light photoreceptors, the phototropins. Although phototropins have been well-characterized in Arabidopsis thaliana, their evolutionary history is largely unknown. In this study, we complete an in-depth survey of phototropin homologs across land plants and algae using newly available transcriptomic and genomic data. We show that phototropins originated in an ancestor of Viridiplantae (land plants + green algae). Phototropins repeatedly underwent independent duplications in most major land-plant lineages (mosses, lycophytes, ferns, and seed plants), but remained single-copy genes in liverworts and hornworts-an evolutionary pattern shared with another family of photoreceptors, the phytochromes. Following each major duplication event, the phototropins differentiated in parallel, resulting in two specialized, yet partially overlapping, functional forms that primarily mediate either low- or high-light responses. Our detailed phylogeny enables us to not only uncover new phototropin lineages, but also link our understanding of phototropin function in Arabidopsis with what is known in Adiantum and Physcomitrella (the major model organisms outside of flowering plants). We propose that the convergent functional divergences of phototropin paralogs likely contributed to the success of plants through time in adapting to habitats with diverse and heterogeneous light conditions.

Published
2015
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38. The Origin and Evolution of the Plant Cell Surface: Algal Integrin-Associated Proteins and a New Family of Integrin-Like Cytoskeleton-ECM Linker Proteins.

Author

Becker B, Doan JM, Wustman B, Carpenter EJ, Chen L, Zhang Y, Wong GK, and Melkonian M

Subjects
Algal Proteins analysis, Algal Proteins genetics, Computer Simulation, Evolution, Molecular, Membrane Glycoproteins analysis, Membrane Glycoproteins genetics, Microfilament Proteins chemistry, Plant Proteins chemistry, Protein Structure, Tertiary, Sequence Homology, Amino Acid, Algal Proteins chemistry, Chlorophyta genetics, Chlorophyta ultrastructure, Membrane Glycoproteins chemistry
Abstract

The extracellular matrix of scaly green flagellates consists of small organic scales consisting of polysaccharides and scale-associated proteins (SAPs). Molecular phylogenies have shown that these organisms represent the ancestral stock of flagellates from which all green plants (Viridiplantae) evolved. The molecular characterization of four different SAPs is presented. Three SAPs are type-2 membrane proteins with an arginine/alanine-rich short cytoplasmic tail and an extracellular domain that is most likely of bacterial origin. The fourth protein is a filamin-like protein. In addition, we report the presence of proteins similar to the integrin-associated proteins α-actinin (in transcriptomes of glaucophytes and some viridiplants), LIM-domain proteins, and integrin-associated kinase in transcriptomes of viridiplants, glaucophytes, and rhodophytes. We propose that the membrane proteins identified are the predicted linkers between scales and the cytoskeleton. These proteins are present in many green algae but are apparently absent from embryophytes. These proteins represent a new protein family we have termed gralins for green algal integrins. Gralins are absent from embryophytes. A model for the evolution of the cell surface proteins in Plantae is discussed., (© The Author(s) 2015. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.)

Published
2015
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39. Large-insert genome analysis technology detects structural variation in Pseudomonas aeruginosa clinical strains from cystic fibrosis patients.

Author

Hayden HS, Gillett W, Saenphimmachak C, Lim R, Zhou Y, Jacobs MA, Chang J, Rohmer L, D'Argenio DA, Palmieri A, Levy R, Haugen E, Wong GK, Brittnacher MJ, Burns JL, Miller SI, Olson MV, and Kaul R

Subjects
Base Sequence, Genetic Variation, Humans, Molecular Sequence Data, Mutagenesis, Insertional, Pseudomonas aeruginosa isolation & purification, Recombination, Genetic, Sequence Deletion, Cystic Fibrosis microbiology, DNA Fingerprinting methods, DNA Mutational Analysis methods, Genome, Bacterial, Pseudomonas aeruginosa genetics
Abstract

Large-insert genome analysis (LIGAN) is a broadly applicable, high-throughput technology designed to characterize genome-scale structural variation. Fosmid paired-end sequences and DNA fingerprints from a query genome are compared to a reference sequence using the Genomic Variation Analysis (GenVal) suite of software tools to pinpoint locations of insertions, deletions, and rearrangements. Fosmids spanning regions that contain new structural variants can then be sequenced. Clonal pairs of Pseudomonas aeruginosa isolates from four cystic fibrosis patients were used to validate the LIGAN technology. Approximately 1.5 Mb of inserted sequences were identified, including 743 kb containing 615 ORFs that are absent from published P. aeruginosa genomes. Six rearrangement breakpoints and 220 kb of deleted sequences were also identified. Our study expands the "genome universe" of P. aeruginosa and validates a technology that complements emerging, short-read sequencing methods that are better suited to characterizing single-nucleotide polymorphisms than structural variation.

Published
2008
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40. Pigs in sequence space: a 0.66X coverage pig genome survey based on shotgun sequencing.

Author

Wernersson R, Schierup MH, Jørgensen FG, Gorodkin J, Panitz F, Staerfeldt HH, Christensen OF, Mailund T, Hornshøj H, Klein A, Wang J, Liu B, Hu S, Dong W, Li W, Wong GK, Yu J, Wang J, Bendixen C, Fredholm M, Brunak S, Yang H, and Bolund L

Subjects
Animals, Computational Biology methods, Evolution, Molecular, Exons, Genome, Human, Humans, Mice, Phylogeny, RNA, Messenger metabolism, Repetitive Sequences, Nucleic Acid, Species Specificity, Swine, Genome, Genomics methods, Sequence Analysis, DNA methods
Abstract

Background: Comparative whole genome analysis of Mammalia can benefit from the addition of more species. The pig is an obvious choice due to its economic and medical importance as well as its evolutionary position in the artiodactyls., Results: We have generated approximately 3.84 million shotgun sequences (0.66X coverage) from the pig genome. The data are hereby released (NCBI Trace repository with center name "SDJVP", and project name "Sino-Danish Pig Genome Project") together with an initial evolutionary analysis. The non-repetitive fraction of the sequences was aligned to the UCSC human-mouse alignment and the resulting three-species alignments were annotated using the human genome annotation. Ultra-conserved elements and miRNAs were identified. The results show that for each of these types of orthologous data, pig is much closer to human than mouse is. Purifying selection has been more efficient in pig compared to human, but not as efficient as in mouse, and pig seems to have an isochore structure most similar to the structure in human., Conclusion: The addition of the pig to the set of species sequenced at low coverage adds to the understanding of selective pressures that have acted on the human genome by bisecting the evolutionary branch between human and mouse with the mouse branch being approximately 3 times as long as the human branch. Additionally, the joint alignment of the shot-gun sequences to the human-mouse alignment offers the investigator a rapid way to defining specific regions for analysis and resequencing.

Published
2005
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