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3. Insights into the red algae and eukaryotic evolution from the genome of Porphyra umbilicalis (Bangiophyceae, Rhodophyta)

Author

Brawley, Susan H, Blouin, Nicolas A, Ficko-Blean, Elizabeth, Wheeler, Glen L, Lohr, Martin, Goodson, Holly V, Jenkins, Jerry W, Blaby-Haas, Crysten E, Helliwell, Katherine E, Chan, Cheong Xin, Marriage, Tara N, Bhattacharya, Debashish, Klein, Anita S, Badis, Yacine, Brodie, Juliet, Cao, Yuanyu, Collén, Jonas, Dittami, Simon M, Gachon, Claire MM, Green, Beverley R, Karpowicz, Steven J, Kim, Jay W, Kudahl, Ulrich Johan, Lin, Senjie, Michel, Gurvan, Mittag, Maria, Olson, Bradley JSC, Pangilinan, Jasmyn L, Peng, Yi, Qiu, Huan, Shu, Shengqiang, Singer, John T, Smith, Alison G, Sprecher, Brittany N, Wagner, Volker, Wang, Wenfei, Wang, Zhi-Yong, Yan, Juying, Yarish, Charles, Zäuner-Riek, Simone, Zhuang, Yunyun, Zou, Yong, Lindquist, Erika A, Grimwood, Jane, Barry, Kerrie W, Rokhsar, Daniel S, Schmutz, Jeremy, Stiller, John W, Grossman, Arthur R, and Prochnik, Simon E

Subjects
Plant Biology, Biological Sciences, Genetics, 1.1 Normal biological development and functioning, Generic health relevance, Actins, Calcium Signaling, Cell Cycle, Cell Wall, Chromatin, Cytoskeleton, Evolution, Molecular, Genome, Plant, Kinesins, Phylogeny, Porphyra, cytoskeleton, calcium-signaling, carbohydrate-active enzymes, stress tolerance, vitamin B-12, vitamin B12, Kinesin
Abstract

Porphyra umbilicalis (laver) belongs to an ancient group of red algae (Bangiophyceae), is harvested for human food, and thrives in the harsh conditions of the upper intertidal zone. Here we present the 87.7-Mbp haploid Porphyra genome (65.8% G + C content, 13,125 gene loci) and elucidate traits that inform our understanding of the biology of red algae as one of the few multicellular eukaryotic lineages. Novel features of the Porphyra genome shared by other red algae relate to the cytoskeleton, calcium signaling, the cell cycle, and stress-tolerance mechanisms including photoprotection. Cytoskeletal motor proteins in Porphyra are restricted to a small set of kinesins that appear to be the only universal cytoskeletal motors within the red algae. Dynein motors are absent, and most red algae, including Porphyra, lack myosin. This surprisingly minimal cytoskeleton offers a potential explanation for why red algal cells and multicellular structures are more limited in size than in most multicellular lineages. Additional discoveries further relating to the stress tolerance of bangiophytes include ancestral enzymes for sulfation of the hydrophilic galactan-rich cell wall, evidence for mannan synthesis that originated before the divergence of green and red algae, and a high capacity for nutrient uptake. Our analyses provide a comprehensive understanding of the red algae, which are both commercially important and have played a major role in the evolution of other algal groups through secondary endosymbioses.

Published
2017

4. Genome of the long-living sacred lotus (Nelumbo nucifera Gaertn.)

Author

Ming, Ray, VanBuren, Robert, Liu, Yanling, Yang, Mei, Han, Yuepeng, Li, Lei-Ting, Zhang, Qiong, Kim, Min-Jeong, Schatz, Michael C, Campbell, Michael, Li, Jingping, Bowers, John E, Tang, Haibao, Lyons, Eric, Ferguson, Ann A, Narzisi, Giuseppe, Nelson, David R, Blaby-Haas, Crysten E, Gschwend, Andrea R, Jiao, Yuannian, Der, Joshua P, Zeng, Fanchang, Han, Jennifer, Min, Xiang, Hudson, Karen A, Singh, Ratnesh, Grennan, Aleel K, Karpowicz, Steven J, Watling, Jennifer R, Ito, Kikukatsu, Robinson, Sharon A, Hudson, Matthew E, Yu, Qingyi, Mockler, Todd C, Carroll, Andrew, Zheng, Yun, Sunkar, Ramanjulu, Jia, Ruizong, Chen, Nancy, Arro, Jie, Wai, Ching, Wafula, Eric, Spence, Ashley, Han, Yanni, Xu, Liming, Zhang, Jisen, Peery, Rhiannon, Haus, Miranda J, Xiong, Wenwei, Walsh, James A, Wu, Jun, Wang, Ming-Li, Zhu, Yun J, Paull, Robert E, Britt, Anne B, Du, Chunguang, Downie, Stephen R, Schuler, Mary A, Michael, Todd P, Long, Steve P, Ort, Donald R, William Schopf, J, Gang, David R, Jiang, Ning, Yandell, Mark, dePamphilis, Claude W, Merchant, Sabeeha S, Paterson, Andrew H, Buchanan, Bob B, Li, Shaohua, and Shen-Miller, Jane

Abstract

Abstract Background Sacred lotus is a basal eudicot with agricultural, medicinal, cultural and religious importance. It was domesticated in Asia about 7,000 years ago, and cultivated for its rhizomes and seeds as a food crop. It is particularly noted for its 1,300-year seed longevity and exceptional water repellency, known as the lotus effect. The latter property is due to the nanoscopic closely packed protuberances of its self-cleaning leaf surface, which have been adapted for the manufacture of a self-cleaning industrial paint, Lotusan. Results The genome of the China Antique variety of the sacred lotus was sequenced with Illumina and 454 technologies, at respective depths of 101× and 5.2×. The final assembly has a contig N50 of 38.8 kbp and a scaffold N50 of 3.4 Mbp, and covers 86.5% of the estimated 929 Mbp total genome size. The genome notably lacks the paleo-triplication observed in other eudicots, but reveals a lineage-specific duplication. The genome has evidence of slow evolution, with a 30% slower nucleotide mutation rate than observed in grape. Comparisons of the available sequenced genomes suggest a minimum gene set for vascular plants of 4,223 genes. Strikingly, the sacred lotus has 16 COG2132 multi-copper oxidase family proteins with root-specific expression; these are involved in root meristem phosphate starvation, reflecting adaptation to limited nutrient availability in an aquatic environment. Conclusions The slow nucleotide substitution rate makes the sacred lotus a better resource than the current standard, grape, for reconstructing the pan-eudicot genome, and should therefore accelerate comparative analysis between eudicots and monocots.

Published
2013

5. Phylogenomic analysis of the Chlamydomonas genome unmasks proteins potentially involved in photosynthetic function and regulation

Author

Grossman, Arthur R., Karpowicz, Steven J., Heinnickel, Mark, Dewez, David, Hamel, Blaise, Dent, Rachel, Niyogi, Krishna K., Johnson, Xenie, Alric, Jean, Wollman, Francis-André, Li, Huiying, and Merchant, Sabeeha S.

Subjects
Life Sciences, Plant Genetics & Genomics, Plant Sciences, Biochemistry, general, Plant Physiology, Chlamydomonas, GreenCut, Chloroplast, Phylogenomics, Regulation
Abstract

Chlamydomonas reinhardtii, a unicellular green alga, has been exploited as a reference organism for identifying proteins and activities associated with the photosynthetic apparatus and the functioning of chloroplasts. Recently, the full genome sequence of Chlamydomonas was generated and a set of gene models, representing all genes on the genome, was developed. Using these gene models, and gene models developed for the genomes of other organisms, a phylogenomic, comparative analysis was performed to identify proteins encoded on the Chlamydomonas genome which were likely involved in chloroplast functions (or specifically associated with the green algal lineage); this set of proteins has been designated the GreenCut. Further analyses of those GreenCut proteins with uncharacterized functions and the generation of mutant strains aberrant for these proteins are beginning to unmask new layers of functionality/regulation that are integrated into the workings of the photosynthetic apparatus.

Published
2010

7. The Chlamydomonas Genome Reveals the Evolution of Key Animal and Plant Functions

Author

Merchant, Sabeeha S., Prochnik, Simon E., Vallon, Olivier, Harris, Elizabeth H., Karpowicz, Steven J., Witman, George B., Terry, Astrid, Salamov, Asaf, Fritz-Laylin, Lillian K., Maréchal-Drouard, Laurence, Marshal, Wallace F., Qu, Liang-Hu, Nelson, David R., Sanderfoot, Anton A., Spalding, Martin H., Kapitonov, Vladimir V., Ren, Qinghu, Ferris, Patrick, Lindquist, Erika, Shapiro, Harris, Lucas, Susan M., Grimwood, Jane, Schmutz, Jeremy, Cardol, Pierre, Cerutti, Heriberto, Chanfreau, Guillaume, Chen, Chun-Long, Cognat, Valérie, Croft, Martin T., Dent, Rachel, Dutcher, Susan, Fernández, Emilio, Fukuzawa, Hideya, González-Ballester, David, González-Halphen, Diego, Hallmann, Armin, Hanikenne, Marc, Hippler, Michael, Inwood, William, Jabbari, Kamel, Kalanon, Ming, Kuras, Richard, Lefebvre, Paul A., Lemaire, Stéphane D., Loba, Alexey V., Lohr, Martin, Manuell, Andrea, Meier, Iris, Mets, Laurens, Mittag, Maria, Mittelmeier, Telsa, Moroney, James V., Moseley, Jeffrey, Napoli, Carolyn, Nedelcu, Aurora M., Niyogi, Krishna, Novoselov, Sergey V., Paulsen, Ian T., Pazour, Greg, Purton, Saul, Ral, Jean-Philippe, Riano-Pachon, Diego Mauricio, Riekhof, Wayne, Rymarquis, Linda, Schroda, Michael, Stern, David, Umen, James, Willows, Robert, Wilson, Nedra, Zimmer, Sara Lana, Allmer, Jens, Balk, Janneke, Bisova, Katerina, Chen, Chong-Jian, Elias, Marek, Gendler, Karla, Hauser, Charles, Lamb, Mary Rose, Ledford, Heidi, Long, Joanne C., Minagawa, Jun, Page, M. Dudley, Pan, Junmin, Pootakham, Wirulda, Roje, Sanja, Rose, Annkatrin, Stahlberg, Eric, Terauchi, Aimee M., Yang, Pinfen, Ball, Steven, Bowler, Chris, Dieckmann, Carol L., Gladyshev, Vadim N., Green, Pamela, Jorgensen, Richard, Mayfield, Stephen, Mueller-Roeber, Bernd, Rajamani, Sathish, and Sayre, Richard T.

Abstract

Chlamydomonas reinhardtii is a unicellular green alga whose lineage diverged from land plants over 1 billion years ago. It is a model system for studying chloroplast-based photosynthesis, as well as the structure, assembly, and function of eukaryotic flagella (cilia), which were inherited from the common ancestor of plants and animals, but lost in land plants. We sequenced the 120-megabase nuclear genome of Chlamydomonas and performed comparative phylogenomic analyses, identifying genes encoding uncharacterized proteins that are likely associated with the function and biogenesis of chloroplasts or eukaryotic flagella. Analyses of the Chlamydomonas genome advance our understanding of the ancestral eukaryotic cell, reveal previously unknown genes associated with photosynthetic and flagellar functions, and establish links between ciliopathy and the composition and function of flagella.

Published
2007

11. Three Acyltransferases and Nitrogen-responsive Regulator Are Implicated in Nitrogen Starvation-induced Triacylglycerol Accumulation in Chlamydomonas

Author

Boyle, Nanette R., Page, Mark Dudley, Liu, Bensheng, Blaby, Ian K., Casero, David, Kropat, Janette, Cokus, Shawn J., Hong-Hermesdorf, Anne, Shaw, Johnathan, Karpowicz, Steven J., Gallaher, Sean D., Johnson, Shannon, Benning, Christoph, Pellegrini, Matteo, Grossman, Arthur, and Merchant, Sabeeha S.

Published
2012
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14. Biochemical and structural studies of [N.sup.5]-carboxyaminoimidazole ribonucleotide mutase from the acidophilic bacterium Acetobacter aceti

Author

Constantine, Charles Z., Starks, Courtney M., Mill, Christopher P., Ransome, Aaron E., Francois, Julie A., Karpowicz, Steven J., Goodman, Rena A., and Kappock, T. Joseph

Subjects
Imidazole -- Structure, Imidazole -- Chemical properties, Ribonucleotides -- Structure, Ribonucleotides -- Chemical properties, Lactobacillus acidophilus -- Genetic aspects, Biological sciences, Chemistry
Abstract

A study presents a biochemical and structural analysis of [N.sup.5]-carboxyaminoimidazole ribonucleotide ([N.sup.5]-CAIR) mutase (PurE), obtained from the acidophilic bacterium Acetobacter aceti. The results show that PurE facilitates protonation of CAIR C4 in the reverse, nonbiosynthetic direction, as the resulting CAIR is strongly stabilized by the interactions with the enzyme and the water molecule.

Published
2006

16. The Chlamydomonas Genome Reveals the Evolution of Key Animal and Plant Functions

Author

Mar&#233, Cognat, Val&#233, Fern&#225, Gonz&#225, Lemaire, St&#233, Merchant, Sabeeha S., Prochnik, Simon E., Vallon, Olivier, Harris, Elizabeth H., Karpowicz, Steven J., Witman, George B., Terry, Astrid, Salamov, Asaf, Fritz-Laylin, Lillian K., Marshal, Wallace F., Qu, Liang-Hu, Nelson, David R., Sanderfoot, Anton A., Spalding, Martin H., Kapitonov, Vladimir V., Ren, Qinghu, Ferris, Patrick, Lindquist, Erika, Shapiro, Harris, Lucas, Susan M., Grimwood, Jane, Schmutz, Jeremy, Cardol, Pierre, Cerutti, Heriberto, Chanfreau, Guillaume, Chen, Chun-Long, Croft, Martin T., Dent, Rachel, Dutcher, Susan, Fukuzawa, Hideya, Hallmann, Armin, Hanikenne, Marc, Hippler, Michael, Inwood, William, Jabbari, Kamel, Kalanon, Ming, Kuras, Richard, Lefebvre, Paul A., Loba, Alexey V., Lohr, Martin, Manuell, Andrea, Meier, Iris, Mets, Laurens, Mittag, Maria, Mittelmeier, Telsa, Moroney, James V., Moseley, Jeffrey, Napoli, Carolyn, Nedelcu, Aurora M., Niyogi, Krishna, Novoselov, Sergey V., Paulsen, Ian T., Pazour, Greg, Purton, Saul, Ral, Jean-Philippe, Riano-Pachon, Diego Mauricio, Riekhof, Wayne, Rymarquis, Linda, Schroda, Michael, Stern, David, Umen, James, Willows, Robert, Wilson, Nedra, Zimmer, Sara Lana, Allmer, Jens, Balk, Janneke, Bisova, Katerina, Chen, Chong-Jian, Elias, Marek, Gendler, Karla, Hauser, Charles, Lamb, Mary Rose, Ledford, Heidi, Long, Joanne C., Minagawa, Jun, Page, M. Dudley, Pan, Junmin, Pootakham, Wirulda, Roje, Sanja, Rose, Annkatrin, Stahlberg, Eric, Terauchi, Aimee M., Yang, Pinfen, Ball, Steven, Bowler, Chris, Dieckmann, Carol L., Gladyshev, Vadim N., Green, Pamela, Jorgensen, Richard, Mayfield, Stephen, Mueller-Roeber, Bernd, Rajamani, Sathish, Sayre, Richard T., Brokstein, Peter, Dubchak, Inna, Goodstein, David, Hornick, Leila, Huang, Wayne, Jhaveri, Jinal, Luo, Yigong, Martinez, Diego, Ngau, Wing Chi Abby, Otillar, Bobby, Poliakov, Alexander, Porter, Aaron, Szajkowski, Lukasz, Werner, Gregory, Zhou, Kemin, Grigoriev, Igor V., Rokhsar, Daniel S., and Grossman, Arthur R.

Subjects
food and beverages
Abstract

Chlamydomonas reinhardtii is a unicellular green alga whose lineage diverged from land plants over 1 billion years ago. It is a model system for studying chloroplast-based photosynthesis, as well as the structure, assembly, and function of eukaryotic flagella (cilia), which were inherited from the common ancestor of plants and animals, but lost in land plants. We sequenced the 120-megabase nuclear genome of Chlamydomonas and performed comparative phylogenomic analyses, identifying genes encoding uncharacterized proteins that are likely associated with the function and biogenesis of chloroplasts or eukaryotic flagella. Analyses of the Chlamydomonas genome advance our understanding of the ancestral eukaryotic cell, reveal previously unknown genes associated with photosynthetic and flagellar functions, and establish links between ciliopathy and the composition and function of flagella.

Published
2007

18. Nelumbo nucifera [data set]

Author

Ming, Ray, Vanburen, Robert, Liu, Yanling, Yang, Mei, Han, Yuepeng, Li, Leiting, Zhang, Qiong, Kim, Min-Jeong, Schatz, Michael C, Campbell, Michael, Li, Jingping, Bowers, John E, Tang, Haibao, Lyons, Eric, Ferguson, Ann A, Narzisi, Giuseppe, Nelson, David R., Blaby-Haas, Crysten E, Gschwend, Andrea R, Jiao, Yuannian, Der, Joshua P., Zeng, Fanchang, Han, Jennifer, Xiang, Jia Min, Hudson, Karen A, Singh, Ratnesh, Grennan, Aleel K, Karpowicz, Steven J, Watling, Jennifer, Ito, Kikukatsu, Robinson, Sharon A., Hudson, Matthew E, Yu, Qingyi, Mockler, Todd C, Carroll, Andrew, Zheng, Yun, Sunkar, Ramanjulu, Jia, Ruizong, Chen, Nancy, Arro, Jie, Wai, Ching Man, Wafula, Eric, Spence, Ashley, Han, Yanni, Xu, Liming, Zhang, Jisen, Peery, Rhiannon, Haus, Miranda J, Xiong, Wenwei, Walsh, James A, Wu, Jun, Wang, Ming-Li, Zhu, Yun J, Paull, Robert E, Britt, Anne B, Du, Chunguang, Downie, Stephen R, Schuler, Mary A, Michael, Todd P, Long, Steve P, Ort, Donald R, Schopf, J William, Gang, David R, Jiang, Ning, Yandell, Mark, Depamphilis, Claude W, Merchant, Sabeeha S, Paterson, Andrew H, Buchanan, Bob B, Li, Shaohua, Shen-Miller, Jane, Ming, Ray, Vanburen, Robert, Liu, Yanling, Yang, Mei, Han, Yuepeng, Li, Leiting, Zhang, Qiong, Kim, Min-Jeong, Schatz, Michael C, Campbell, Michael, Li, Jingping, Bowers, John E, Tang, Haibao, Lyons, Eric, Ferguson, Ann A, Narzisi, Giuseppe, Nelson, David R., Blaby-Haas, Crysten E, Gschwend, Andrea R, Jiao, Yuannian, Der, Joshua P., Zeng, Fanchang, Han, Jennifer, Xiang, Jia Min, Hudson, Karen A, Singh, Ratnesh, Grennan, Aleel K, Karpowicz, Steven J, Watling, Jennifer, Ito, Kikukatsu, Robinson, Sharon A., Hudson, Matthew E, Yu, Qingyi, Mockler, Todd C, Carroll, Andrew, Zheng, Yun, Sunkar, Ramanjulu, Jia, Ruizong, Chen, Nancy, Arro, Jie, Wai, Ching Man, Wafula, Eric, Spence, Ashley, Han, Yanni, Xu, Liming, Zhang, Jisen, Peery, Rhiannon, Haus, Miranda J, Xiong, Wenwei, Walsh, James A, Wu, Jun, Wang, Ming-Li, Zhu, Yun J, Paull, Robert E, Britt, Anne B, Du, Chunguang, Downie, Stephen R, Schuler, Mary A, Michael, Todd P, Long, Steve P, Ort, Donald R, Schopf, J William, Gang, David R, Jiang, Ning, Yandell, Mark, Depamphilis, Claude W, Merchant, Sabeeha S, Paterson, Andrew H, Buchanan, Bob B, Li, Shaohua, and Shen-Miller, Jane

Abstract

Genome of the long-living sacred lotus (Nelumbo nucifera Gaertn). Discovered as part of the Nelumbo nucifera whole genome shotgun (WGS) project with the project accession AQOG00000000. BioProject PRJNA168000.

Published
2013

19. The Chlamydomonas Genome Reveals the Evolution of Key Animal and Plant Functions

Author

Merchant, Sabeeha S., primary, Prochnik, Simon E., additional, Vallon, Olivier, additional, Harris, Elizabeth H., additional, Karpowicz, Steven J., additional, Witman, George B., additional, Terry, Astrid, additional, Salamov, Asaf, additional, Fritz-Laylin, Lillian K., additional, Maréchal-Drouard, Laurence, additional, Marshall, Wallace F., additional, Qu, Liang-Hu, additional, Nelson, David R., additional, Sanderfoot, Anton A., additional, Spalding, Martin H., additional, Kapitonov, Vladimir V., additional, Ren, Qinghu, additional, Ferris, Patrick, additional, Lindquist, Erika, additional, Shapiro, Harris, additional, Lucas, Susan M., additional, Grimwood, Jane, additional, Schmutz, Jeremy, additional, Cardol, Pierre, additional, Cerutti, Heriberto, additional, Chanfreau, Guillaume, additional, Chen, Chun-Long, additional, Cognat, Valérie, additional, Croft, Martin T., additional, Dent, Rachel, additional, Dutcher, Susan, additional, Fernández, Emilio, additional, Fukuzawa, Hideya, additional, González-Ballester, David, additional, González-Halphen, Diego, additional, Hallmann, Armin, additional, Hanikenne, Marc, additional, Hippler, Michael, additional, Inwood, William, additional, Jabbari, Kamel, additional, Kalanon, Ming, additional, Kuras, Richard, additional, Lefebvre, Paul A., additional, Lemaire, Stéphane D., additional, Lobanov, Alexey V., additional, Lohr, Martin, additional, Manuell, Andrea, additional, Meier, Iris, additional, Mets, Laurens, additional, Mittag, Maria, additional, Mittelmeier, Telsa, additional, Moroney, James V., additional, Moseley, Jeffrey, additional, Napoli, Carolyn, additional, Nedelcu, Aurora M., additional, Niyogi, Krishna, additional, Novoselov, Sergey V., additional, Paulsen, Ian T., additional, Pazour, Greg, additional, Purton, Saul, additional, Ral, Jean-Philippe, additional, Riaño-Pachón, Diego Mauricio, additional, Riekhof, Wayne, additional, Rymarquis, Linda, additional, Schroda, Michael, additional, Stern, David, additional, Umen, James, additional, Willows, Robert, additional, Wilson, Nedra, additional, Zimmer, Sara Lana, additional, Allmer, Jens, additional, Balk, Janneke, additional, Bisova, Katerina, additional, Chen, Chong-Jian, additional, Elias, Marek, additional, Gendler, Karla, additional, Hauser, Charles, additional, Lamb, Mary Rose, additional, Ledford, Heidi, additional, Long, Joanne C., additional, Minagawa, Jun, additional, Page, M. Dudley, additional, Pan, Junmin, additional, Pootakham, Wirulda, additional, Roje, Sanja, additional, Rose, Annkatrin, additional, Stahlberg, Eric, additional, Terauchi, Aimee M., additional, Yang, Pinfen, additional, Ball, Steven, additional, Bowler, Chris, additional, Dieckmann, Carol L., additional, Gladyshev, Vadim N., additional, Green, Pamela, additional, Jorgensen, Richard, additional, Mayfield, Stephen, additional, Mueller-Roeber, Bernd, additional, Rajamani, Sathish, additional, Sayre, Richard T., additional, Brokstein, Peter, additional, Dubchak, Inna, additional, Goodstein, David, additional, Hornick, Leila, additional, Huang, Y. Wayne, additional, Jhaveri, Jinal, additional, Luo, Yigong, additional, Martínez, Diego, additional, Ngau, Wing Chi Abby, additional, Otillar, Bobby, additional, Poliakov, Alexander, additional, Porter, Aaron, additional, Szajkowski, Lukasz, additional, Werner, Gregory, additional, Zhou, Kemin, additional, Grigoriev, Igor V., additional, Rokhsar, Daniel S., additional, and Grossman, Arthur R., additional

Published
2007
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