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1. The ‘Photosynthetic C1 pathway’ links carbon assimilation and growth in plants

Author

Jardine, Kolby, Gallo, Luiza, Roth, Melissa, Upadhyaya, Shivani, Northen, Trent, Kosina, Suzanne, Tcherkez, Guillaume, Eudes, Aymerick, Domigues, Tomas, Greule, Markus, and Keppler, Frank

Subjects
Plant Biology, Biological Sciences, Ecology
Abstract

Abstract As atmospheric CO2 rises, increases in photosynthesis and plant growth are routinely documented across ecosystems globally. Although primarily studied in relation to photorespiration, serine metabolism in chloroplasts may play a key role in plant CO2 fertilization responses by linking CO2 assimilation with growth. However, little information is available on the in vivo activity of the plastidic phosphorylated serine pathway. Here, we show that the serine phosphate pathway is part of a ‘photosynthetic C1 pathway’ and demonstrate its high activity in foliage of a C3 tree where it rapidly integrates photosynthesis directly with C1 metabolism contributing to new biomass via methyl transfer reactions and imparting a large natural 13C-depleted signature. Using 13CO2-labelling, we show that leaf serine, the S-methyl group of leaf methionine, pectin methyl esters, and the associated methanol released during cell wall expansion during growth, are directly produced from photosynthetically-linked C1 metabolism, unrelated to photorespiration, within minutes of light exposure. We speculate that the photosynthetic C1 pathway and its key enzyme methionine synthase is highly conserved across the photosynthetic tree of life and may have evolved with oxygenic photosynthesis by providing a mechanism of directly linking carbon assimilation with growth. Although the rise in atmospheric CO2 inhibits major metabolic pathways like photorespiration in C3 plants, our results suggest that the photosynthetic C1 pathway may accelerate and represents a ‘missing link’ between enhanced photosynthesis and growth rates of modern plants and ecosystems during terrestrial CO2 fertilization under a changing climate.

Published
2024

2. Iron rescues glucose-mediated photosynthesis repression during lipid accumulation in the green alga Chromochloris zofingiensis

Author

Jeffers, Tim L, Purvine, Samuel O, Nicora, Carrie D, McCombs, Ryan, Upadhyaya, Shivani, Stroumza, Adrien, Whang, Ken, Gallaher, Sean D, Dohnalkova, Alice, Merchant, Sabeeha S, Lipton, Mary, Niyogi, Krishna K, and Roth, Melissa S

Subjects
Plant Biology, Biochemistry and Cell Biology, Biological Sciences, Industrial Biotechnology, 2.1 Biological and endogenous factors, Affordable and Clean Energy, Photosynthesis, Iron, Glucose, Triglycerides, Lipid Metabolism, Chlorophyta, Thylakoids, Proteomics, Hexokinase, Chlorophyceae
Abstract

Energy status and nutrients regulate photosynthetic protein expression. The unicellular green alga Chromochloris zofingiensis switches off photosynthesis in the presence of exogenous glucose (+Glc) in a process that depends on hexokinase (HXK1). Here, we show that this response requires that cells lack sufficient iron (-Fe). Cells grown in -Fe+Glc accumulate triacylglycerol (TAG) while losing photosynthesis and thylakoid membranes. However, cells with an iron supplement (+Fe+Glc) maintain photosynthesis and thylakoids while still accumulating TAG. Proteomic analysis shows that known photosynthetic proteins are most depleted in heterotrophy, alongside hundreds of uncharacterized, conserved proteins. Photosynthesis repression is associated with enzyme and transporter regulation that redirects iron resources to (a) respiratory instead of photosynthetic complexes and (b) a ferredoxin-dependent desaturase pathway supporting TAG accumulation rather than thylakoid lipid synthesis. Combining insights from diverse organisms from green algae to vascular plants, we show how iron and trophic constraints on metabolism aid gene discovery for photosynthesis and biofuel production.

Published
2024

5. Widespread polycistronic gene expression in green algae

Author

Gallaher, Sean D, Craig, Rory J, Ganesan, Iniyan, Purvine, Samuel O, McCorkle, Sean R, Grimwood, Jane, Strenkert, Daniela, Davidi, Lital, Roth, Melissa S, Jeffers, Tim L, Lipton, Mary S, Niyogi, Krishna K, Schmutz, Jeremy, Theg, Steven M, Blaby-Haas, Crysten E, and Merchant, Sabeeha S

Subjects
Biological Sciences, Bioinformatics and Computational Biology, Genetics, Biotechnology, Chlorophyta, Gene Expression Regulation, Bacterial, Gene Expression Regulation, Plant, Open Reading Frames, Plant Proteins, RNA, Messenger, Transcription, Genetic, transcriptome, bicistronic, dicistronic, leaky ribosome scanning, uORFs
Abstract

Polycistronic gene expression, common in prokaryotes, was thought to be extremely rare in eukaryotes. The development of long-read sequencing of full-length transcript isomers (Iso-Seq) has facilitated a reexamination of that dogma. Using Iso-Seq, we discovered hundreds of examples of polycistronic expression of nuclear genes in two divergent species of green algae: Chlamydomonas reinhardtii and Chromochloris zofingiensis Here, we employ a range of independent approaches to validate that multiple proteins are translated from a common transcript for hundreds of loci. A chromatin immunoprecipitation analysis using trimethylation of lysine 4 on histone H3 marks confirmed that transcription begins exclusively at the upstream gene. Quantification of polyadenylated [poly(A)] tails and poly(A) signal sequences confirmed that transcription ends exclusively after the downstream gene. Coexpression analysis found nearly perfect correlation for open reading frames (ORFs) within polycistronic loci, consistent with expression in a shared transcript. For many polycistronic loci, terminal peptides from both ORFs were identified from proteomics datasets, consistent with independent translation. Synthetic polycistronic gene pairs were transcribed and translated in vitro to recapitulate the production of two distinct proteins from a common transcript. The relative abundance of these two proteins can be modified by altering the Kozak-like sequence of the upstream gene. Replacement of the ORFs with selectable markers or reporters allows production of such heterologous proteins, speaking to utility in synthetic biology approaches. Conservation of a significant number of polycistronic gene pairs between C. reinhardtii, C. zofingiensis, and five other species suggests that this mechanism may be evolutionarily ancient and biologically important in the green algal lineage.

Published
2021

6. Hexokinase is necessary for glucose-mediated photosynthesis repression and lipid accumulation in a green alga.

Author

Roth, Melissa S, Westcott, Daniel J, Iwai, Masakazu, and Niyogi, Krishna K

Abstract

Global primary production is driven largely by oxygenic photosynthesis, with algae as major contributors. The green alga Chromochloris zofingiensis reversibly switches off photosynthesis in the presence of glucose in the light and augments production of biofuel precursors (triacylglycerols) and the high-value antioxidant astaxanthin. Here we used forward genetics to reveal that this photosynthetic and metabolic switch is mediated by the glycolytic enzyme hexokinase (CzHXK1). In contrast to wild-type, glucose-treated hxk1 mutants do not shut off photosynthesis or accumulate astaxanthin, triacylglycerols, or cytoplasmic lipid droplets. We show that CzHXK1 is critical for the regulation of genes related to photosynthesis, ketocarotenoid synthesis and fatty acid biosynthesis. Sugars play fundamental regulatory roles in gene expression, physiology, metabolism, and growth in plants and animals, and we introduce a relatively simple, emerging model system to investigate conserved eukaryotic sugar sensing and signaling at the base of the green lineage.

Published
2019

7. Regulation of Oxygenic Photosynthesis during Trophic Transitions in the Green Alga Chromochloris zofingiensis [OPEN]

Author

Roth, Melissa S, Gallaher, Sean D, Westcott, Daniel J, Iwai, Masakazu, Louie, Katherine B, Mueller, Maria, Walter, Andreas, Foflonker, Fatima, Bowen, Benjamin P, Ataii, Nassim N, Song, Junha, Chen, Jian-Hua, Blaby-Haas, Crysten E, Larabell, Carolyn, Auer, Manfred, Northen, Trent R, Merchant, Sabeeha S, and Niyogi, Krishna K

Subjects
Plant Biology, Biological Sciences, Industrial Biotechnology, Genetics, Affordable and Clean Energy, Antioxidants, Bioengineering, Carbon, Chlorophyceae, Gene Expression Regulation, Plant, Glucose, Oxygen, Photosynthesis, Thylakoids, Transcriptome, Xanthophylls, Biochemistry and Cell Biology, Plant Biology & Botany, Plant biology
Abstract

Light and nutrients are critical regulators of photosynthesis and metabolism in plants and algae. Many algae have the metabolic flexibility to grow photoautotrophically, heterotrophically, or mixotrophically. Here, we describe reversible Glc-dependent repression/activation of oxygenic photosynthesis in the unicellular green alga Chromochloris zofingiensis. We observed rapid and reversible changes in photosynthesis, in the photosynthetic apparatus, in thylakoid ultrastructure, and in energy stores including lipids and starch. Following Glc addition in the light, C. zofingiensis shuts off photosynthesis within days and accumulates large amounts of commercially relevant bioproducts, including triacylglycerols and the high-value nutraceutical ketocarotenoid astaxanthin, while increasing culture biomass. RNA sequencing reveals reversible changes in the transcriptome that form the basis of this metabolic regulation. Functional enrichment analyses show that Glc represses photosynthetic pathways while ketocarotenoid biosynthesis and heterotrophic carbon metabolism are upregulated. Because sugars play fundamental regulatory roles in gene expression, physiology, metabolism, and growth in both plants and animals, we have developed a simple algal model system to investigate conserved eukaryotic sugar responses as well as mechanisms of thylakoid breakdown and biogenesis in chloroplasts. Understanding regulation of photosynthesis and metabolism in algae could enable bioengineering to reroute metabolism toward beneficial bioproducts for energy, food, pharmaceuticals, and human health.

Published
2019

8. The 'photosynthetic C1 pathway' links carbon assimilation and growth in California poplar.

Author

Jardine, Kolby J., Gallo, Luiza, Roth, Melissa, Upadhyaya, Shivani, Northen, Trent, Kosina, Suzanne, Tcherkez, Guillaume, Eudes, Aymerick, Domigues, Tomas, Greule, Markus, Som, Suman, and Keppler, Frank

Subjects
PLANT fertilization, BLACK cottonwood, METHYL formate, BIOMASS, PLANT growth
Abstract

Although primarily studied in relation to photorespiration, serine metabolism in chloroplasts may play a key role in plant CO2 fertilization responses by linking CO2 assimilation with growth. Here, we show that the phosphorylated serine pathway is part of a 'photosynthetic C1 pathway' and demonstrate its high activity in foliage of a C3 tree where it rapidly integrates photosynthesis and C1 metabolism contributing to new biomass via methyl transfer reactions, imparting a large natural 13C-depleted signature. Using 13CO2-labelling, we show that leaf serine, the S-methyl group of leaf methionine, pectin methyl esters, and the associated methanol released during cell wall expansion during growth, are directly produced from photosynthetically-linked C1 metabolism, within minutes of light exposure. We speculate that the photosynthetic C1 pathway is highly conserved across the photosynthetic tree of life, is responsible for synthesis of the greenhouse gas methane, and may have evolved with oxygenic photosynthesis by providing a mechanism of directly linking carbon and ammonia assimilation with growth. Although the rise in atmospheric CO2 inhibits major metabolic pathways like photorespiration, our results suggest that the photosynthetic C1 pathway may accelerate and represents a missing link between enhanced photosynthesis and plant growth rates during CO2 fertilization under a changing climate. A photosynthetic C1 pathway starting with CO2 and NH3 assimilation and ending with methionine synthesis is highly active in foliage of a C3 tree, where it rapidly integrates photosynthesis and C1 metabolism contributing to new biomass via methyl transfer reactions. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Subdiffraction‐resolution live‐cell imaging for visualizing thylakoid membranes

Author

Iwai, Masakazu, Roth, Melissa S, and Niyogi, Krishna K

Subjects
Plant Biology, Biological Sciences, Generic health relevance, Affordable and Clean Energy, Bryopsida, Chlamydomonas reinhardtii, Chlorophyta, Imaging, Three-Dimensional, Intravital Microscopy, Microscopy, Electron, Thylakoids, X-Ray Diffraction, structured illumination microscopy, live-cell imaging, thylakoid structure, technical advance, Arabidopsis thaliana, Arabidopsis thaliana, Chlamydomonas reinhardtii, Biochemistry and Cell Biology, Plant Biology & Botany, Biochemistry and cell biology, Plant biology
Abstract

The chloroplast is the chlorophyll-containing organelle that produces energy through photosynthesis. Within the chloroplast is an intricate network of thylakoid membranes containing photosynthetic membrane proteins that mediate electron transport and generate chemical energy. Historically, electron microscopy (EM) has been a powerful tool for visualizing the macromolecular structure and organization of thylakoid membranes. However, an understanding of thylakoid membrane dynamics remains elusive because EM requires fixation and sectioning. To improve our knowledge of thylakoid membrane dynamics we need to consider at least two issues: (i) the live-cell imaging conditions needed to visualize active processes in vivo; and (ii) the spatial resolution required to differentiate the characteristics of thylakoid membranes. Here, we utilize three-dimensional structured illumination microscopy (3D-SIM) to explore the optimal imaging conditions for investigating the dynamics of thylakoid membranes in living plant and algal cells. We show that 3D-SIM is capable of examining broad characteristics of thylakoid structures in chloroplasts of the vascular plant Arabidopsis thaliana and distinguishing the structural differences between wild-type and mutant strains. Using 3D-SIM, we also visualize thylakoid organization in whole cells of the green alga Chlamydomonas reinhardtii. These data reveal that high light intensity changes thylakoid membrane structure in C. reinhardtii. Moreover, we observed the green alga Chromochloris zofingiensis and the moss Physcomitrella patens to show the applicability of 3D-SIM. This study demonstrates that 3D-SIM is a promising approach for studying the dynamics of thylakoid membranes in photoautotrophic organisms during photoacclimation processes.

Published
2018

10. RNA Purification from the Unicellular Green Alga, Chromochloris zofingiensis.

Author

Gallaher, Sean D and Roth, Melissa S

Subjects
Biological Sciences, Bioinformatics and Computational Biology, Genetics, Human Genome, Chromochloris zofingiensis, Algae, RNA purification, RNA-Seq, Cell wall, Biological sciences, Biomedical and clinical sciences
Abstract

Chromochloris zofingiensis is a unicellular green alga that is an emerging model species for studies in fields such as biofuel production, ketocarotenoid biosynthesis and metabolism. The recent availability of a high-quality genome assembly facilitates systems-level analysis, such as RNA-Seq. However, cells of this alga have a tough cell wall, which is a challenge for RNA purification. This protocol was designed specifically to breach the cell wall and isolate high-quality RNA suitable for RNA-Seq studies.

Published
2018

11. Chromosome-level genome assembly and transcriptome of the green alga Chromochloris zofingiensis illuminates astaxanthin production

Author

Roth, Melissa S, Cokus, Shawn J, Gallaher, Sean D, Walter, Andreas, Lopez, David, Erickson, Erika, Endelman, Benjamin, Westcott, Daniel, Larabell, Carolyn A, Merchant, Sabeeha S, Pellegrini, Matteo, and Niyogi, Krishna K

Subjects
Biological Sciences, Bioinformatics and Computational Biology, Genetics, Human Genome, Underpinning research, 1.1 Normal biological development and functioning, Generic health relevance, Affordable and Clean Energy, Base Sequence, Biofuels, Chlorophyta, Chromosome Mapping, Chromosomes, Plant, Genome, Plant, Microalgae, Sequence Analysis, DNA, Transcriptome, Xanthophylls, Chlorophyceae, carotenoid biosynthesis, de novo genome, genome mapping, RNA-Seq
Abstract

Microalgae have potential to help meet energy and food demands without exacerbating environmental problems. There is interest in the unicellular green alga Chromochloris zofingiensis, because it produces lipids for biofuels and a highly valuable carotenoid nutraceutical, astaxanthin. To advance understanding of its biology and facilitate commercial development, we present a C. zofingiensis chromosome-level nuclear genome, organelle genomes, and transcriptome from diverse growth conditions. The assembly, derived from a combination of short- and long-read sequencing in conjunction with optical mapping, revealed a compact genome of ∼58 Mbp distributed over 19 chromosomes containing 15,274 predicted protein-coding genes. The genome has uniform gene density over chromosomes, low repetitive sequence content (∼6%), and a high fraction of protein-coding sequence (∼39%) with relatively long coding exons and few coding introns. Functional annotation of gene models identified orthologous families for the majority (∼73%) of genes. Synteny analysis uncovered localized but scrambled blocks of genes in putative orthologous relationships with other green algae. Two genes encoding beta-ketolase (BKT), the key enzyme synthesizing astaxanthin, were found in the genome, and both were up-regulated by high light. Isolation and molecular analysis of astaxanthin-deficient mutants showed that BKT1 is required for the production of astaxanthin. Moreover, the transcriptome under high light exposure revealed candidate genes that could be involved in critical yet missing steps of astaxanthin biosynthesis, including ABC transporters, cytochrome P450 enzymes, and an acyltransferase. The high-quality genome and transcriptome provide insight into the green algal lineage and carotenoid production.

Published
2017

12. Iron rescues glucose-mediated photosynthesis repression during lipid accumulation in the green alga Chromochloris zofingiensis.

Author

Jeffers, Tim, Jeffers, Tim, Purvine, Samuel, Nicora, Carrie, McCombs, Ryan, Upadhyaya, Shivani, Stroumza, Adrien, Whang, Ken, Gallaher, Sean, Dohnalkova, Alice, Merchant, Sabeeha, Lipton, Mary, Niyogi, Krishna, Roth, Melissa, Jeffers, Tim, Jeffers, Tim, Purvine, Samuel, Nicora, Carrie, McCombs, Ryan, Upadhyaya, Shivani, Stroumza, Adrien, Whang, Ken, Gallaher, Sean, Dohnalkova, Alice, Merchant, Sabeeha, Lipton, Mary, Niyogi, Krishna, and Roth, Melissa

Abstract

Energy status and nutrients regulate photosynthetic protein expression. The unicellular green alga Chromochloris zofingiensis switches off photosynthesis in the presence of exogenous glucose (+Glc) in a process that depends on hexokinase (HXK1). Here, we show that this response requires that cells lack sufficient iron (-Fe). Cells grown in -Fe+Glc accumulate triacylglycerol (TAG) while losing photosynthesis and thylakoid membranes. However, cells with an iron supplement (+Fe+Glc) maintain photosynthesis and thylakoids while still accumulating TAG. Proteomic analysis shows that known photosynthetic proteins are most depleted in heterotrophy, alongside hundreds of uncharacterized, conserved proteins. Photosynthesis repression is associated with enzyme and transporter regulation that redirects iron resources to (a) respiratory instead of photosynthetic complexes and (b) a ferredoxin-dependent desaturase pathway supporting TAG accumulation rather than thylakoid lipid synthesis. Combining insights from diverse organisms from green algae to vascular plants, we show how iron and trophic constraints on metabolism aid gene discovery for photosynthesis and biofuel production.

Published
2024

13. The Hawaiian Archipelago

Author

Spalding, Heather L., Copus, Joshua M., Bowen, Brian W., Kosaki, Randall K., Longenecker, Ken, Montgomery, Anthony D., Padilla-Gamiño, Jacqueline L., Parrish, Frank A., Roth, Melissa S., Rowley, Sonia J., Toonen, Robert J., Pyle, Richard L., Riegl, Bernhard M., Series Editor, Dodge, Richard E., Series Editor, Loya, Yossi, editor, Puglise, Kimberly A., editor, and Bridge, Tom C.L., editor

Published
2019
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16. Contributors

Author

Abdelaziz, Aya I., primary, Abdollahi, Mehdi, additional, Adrah, Kelvin, additional, Ambedkar, Rudrappa, additional, Anarjan, Navideh, additional, Arathi, Bangalore Prabhashankar, additional, Assunção, Mariana F.G., additional, Azab, Samar S., additional, Baskaran, V., additional, Butler, Thomas O., additional, Capelli, Bob, additional, Capelli, Francis, additional, de Carvalho, Julio Cesar, additional, Cerezal-Mezquita, Pedro, additional, Chen, Jun-Hui, additional, Chen, Zhenfan, additional, Cheng, Xiang, additional, Cheong, J.Y., additional, Colusse, Guilherme Augusto, additional, Demirel, Pinar Buket, additional, Ding, Lixin, additional, Duarte, Maria Eugênia Rabello, additional, Espinaco, Brenda Y., additional, Espinosa-Álvarez, Carolina, additional, Fakhri, Sajad, additional, Farzaei, Mohammad Hosein, additional, Ferreira, Joana D., additional, Gad, Amany M., additional, Gao, Zhengquan, additional, Glukhareva, Tatiana V., additional, Guimarães, Bárbara, additional, He, Jiayi, additional, Hecht, Karen A., additional, Ho, Yiu-Hang, additional, Hong, Dang Diem, additional, Jafarizadeh-Malmiri, Hoda, additional, Janani, R., additional, Jáuregui-Tirado, Marjorie, additional, Jeffers, Tim L., additional, Kanwugu, Osman N., additional, Kim, Se-Kwon, additional, Kovaleva, Elena G., additional, Kumar, Bikash, additional, Kuregyan, Anna Gurgenovna, additional, Lakshminarayana, Rangaswamy, additional, Leone, Gian Paolo, additional, Li, Jian, additional, Li, Xin, additional, Lignell, Åke, additional, Macias-Sánchez, M.D., additional, Madan Kumar, P., additional, Maoka, Takashi, additional, Marino, Tiziana, additional, Martins, Clara B., additional, Mehariya, Sanjeet, additional, Minyuk, Galina, additional, Molino, Antonio, additional, Muskhazli, M., additional, Musmarra, Dino, additional, Nair, Arun, additional, Narayanan, Anila, additional, Naveen, J., additional, Niizawa, Ignacio, additional, Noseda, Miguel Daniel, additional, Oganesyan, Eduard Tonikovich, additional, Palma-Ramírez, Jenifer, additional, Pangestuti, Ratih, additional, Pastén-Angel, Faviola, additional, Pechinskii, Stanislav Vitalievich, additional, Piri, Sana, additional, Pratama, Idham Sumarto, additional, Putra, Yanuariska, additional, Raju, Marisiddaiah, additional, Ramasamy, Hosahalli, additional, Ranga Rao, Ambati, additional, Rathore, Parikshita, additional, Ravi, Sarada, additional, Ravishankar, Gokare A., additional, Rodriguez-Amaya, Delia B., additional, Roth, Melissa S., additional, Ruíz-Domínguez, María del Carmen, additional, Saini, Khem Chand, additional, Salinas-Fuentes, Francisca, additional, Santos, Lília M.A., additional, Schnackenberg, Joerg, additional, Shah, Mahfuzur, additional, Shanmugam, Kathiresan, additional, Siahaan, Evi Amelia, additional, Sihufe, Guillermo A., additional, Simon, Daris P., additional, Sobarzo-Sánchez, Eduardo, additional, Solovchenko, Alexei, additional, Sowmya, Poorigali Raghavendra-Rao, additional, Taghavi, Elham, additional, Tahergorabi, Reza, additional, Talbott, Shawn, additional, Tam, Luu Thi, additional, Tuna, Bilge Guvenc, additional, Turan, Gamze, additional, Vatankhah, Hamed, additional, Verma, Pradeep, additional, Wang, Jiangxin, additional, Wang, Xiaoqian, additional, Wei, Dong, additional, Wong, Yee-Keung, additional, Wu, Mingcan, additional, Yadav, Digvijay Singh, additional, Yang, Duanpeng, additional, Zhu, Ming-Jun, additional, Zhuang, Yuan, additional, and Zorrilla, Susana E., additional

Published
2021
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19. Editorial: Women in coevolution 2022.

Author

Núñez-Pons, Laura, Tai, Vera, Roth, Melissa S., and Theis, Kevin R.

Subjects
COEVOLUTION, WOMEN in science, POLLINATORS, GENDER nonconformity, SCLERACTINIA, POLLINATION, INSECT pollinators, BABY birds, BROOD parasitism
Abstract

This editorial discusses the lack of representation of women in the field of coevolution and highlights the contributions that women have made to the field. It acknowledges the historical biases that have led to a male-dominated research landscape and emphasizes the importance of including diverse perspectives in scientific research. The editorial features a collection of articles written by women that explore various aspects of coevolution, such as symbiosis, microbial partnerships, and plant-pollinator interactions. The authors hope that this collection will inspire and support women in science. The article also addresses the issue of conflict of interest in research and emphasizes that the views expressed are solely those of the authors and do not necessarily represent their affiliated organizations or the publisher. Relevant references to other scientific studies and publications are provided. [Extracted from the article]

Published
2024
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20. Iron rescues glucose-mediated photosynthesis repression during lipid accumulation in the green alga Chromochloris zofingiensis

Author

Roth, Melissa, primary, Purvine, Samuel, additional, Nicora, Carrie, additional, McCombs, Ryan, additional, Upadhyaya, Shivani, additional, Stroumza, Adrien, additional, Whang, Ken, additional, Gallaher, Sean, additional, Dohnalkova, Alice, additional, Merchant, Sabeeha, additional, Lipton, Mary, additional, Niyogi, Krishna, additional, and Jeffers, Tim, additional

Published
2023
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21. Iron rescues glucose-mediated photosynthesis repression during lipid accumulation in the green algaChromochloris zofingiensis

Author

Jeffers, Tim L., primary, Purvine, Samuel O., additional, Nicora, Carrie D., additional, McCombs, Ryan, additional, Upadhyaya, Shivani, additional, Stroumza, Adrien, additional, Whang, Ken, additional, Gallaher, Sean D., additional, Dohnalkova, Alice, additional, Merchant, Sabeeha S., additional, Lipton, Mary, additional, Niyogi, Krishna K., additional, and Roth, Melissa S., additional

Published
2023
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22. 'High Risk' Employers Required To Have Naloxone Kits In The Workplace Starting June 1, 2023

Author

Roth, Melissa

Subjects
Drugs -- Overdose, Naloxone -- Laws, regulations and rules -- Access control, Occupational health and safety -- Laws, regulations and rules, Government regulation, Business, international, Ontario. Occupational Health and Safety Act 1979
Abstract

Ontario's Occupational Health and Safety Act (OHSA) was recently amended to require employers who become aware, or out to reasonably be aware, that there may be a risk of its [...]

Published
2023

26. Magnetic field coupling with lunar soil simulants.

Author

Garman, Shanti M., Roth, Melissa C., Roux, Vincent G., and Smith, Joshua R.

Subjects
*LUNAR soil, *LUNAR craters, *MAGNETIC fields, *IRON powder, *LUNAR surface vehicles, *METALLIC oxides
Abstract

Wireless power transfer (WPT) using magnetically coupled resonators is being integrated into space vehicles destined for the lunar surface. The dusty soil on the Moon, called lunar regolith, is known to adhere to surfaces and is also known to contain iron, including iron oxides and metallic iron. Regolith samples are limited, and lunar soil simulants are commonly used in space science research for efforts in surface vehicle navigation, in-situ resource utilization, and power infrastructure. However, most simulants contain no metallic iron, and research involving electromagnetic field interactions with regolith would benefit from incorporating metallic iron into test samples. This work presents experimental results from tests using WPT with magnetically coupled resonators in the presence of various standard lunar simulants, plus a new iron-enriched simulant and metallic iron powders. Results for power transfer efficiency, thermal response, and frequency response are presented and demonstrate that the presence of metallic iron and its particle size are critical factors affecting the coupling of the incident magnetic field with lunar simulants and iron powder samples. The importance of particle size-to-skin depth ratio is discussed. Attenuation constants for various iron powders are estimated from experimental data and compared to those of lunar regolith and simulants. [ABSTRACT FROM AUTHOR]

Published
2023
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27. Human Rights Tribunal Of Ontario Decides It Has Concurrent Jurisdiction To Hear Human Rights Claims Of Unionized Employees

Author

Roth, Melissa

Subjects
Labor unions -- Laws, regulations and rules -- Ontario, Jurisdiction -- Laws, regulations and rules, Human rights -- Laws, regulations and rules, Employee rights -- Laws, regulations and rules, Government regulation, Business, international
Abstract

On Oct. 4, 2022, the Human Rights Tribunal of Ontario (the 'Tribunal'), issued an Interim Decision in Weilgosh v. London District Catholic School Board ('Weilgosh'),1 on the preliminary issue of [...]

Published
2022

28. Grand Challenges in Coevolution

Author

Medina, Mónica, Baker, David M., Baltrus, David A., Bennett, Gordon M., Cardini, Ulisse, Correa, Adrienne M. S., Degnan, Sandie M., Christa, Gregor, Kim, Eunsoo, Li, Jingchun, Nash, David R., Marzinelli, Ezequiel, Nishiguchi, Michele, Prada, Carlos, Roth, Melissa S., Saha, Mahasweta, Smith, Christopher I., Theis, Kevin R., Zaneveld, Jesse, Medina, Mónica, Baker, David M., Baltrus, David A., Bennett, Gordon M., Cardini, Ulisse, Correa, Adrienne M. S., Degnan, Sandie M., Christa, Gregor, Kim, Eunsoo, Li, Jingchun, Nash, David R., Marzinelli, Ezequiel, Nishiguchi, Michele, Prada, Carlos, Roth, Melissa S., Saha, Mahasweta, Smith, Christopher I., Theis, Kevin R., and Zaneveld, Jesse

Published
2022

30. Grand Challenges in Coevolution

Author

Medina, Mónica, primary, Baker, David M., additional, Baltrus, David A., additional, Bennett, Gordon M., additional, Cardini, Ulisse, additional, Correa, Adrienne M. S., additional, Degnan, Sandie M., additional, Christa, Gregor, additional, Kim, Eunsoo, additional, Li, Jingchun, additional, Nash, David R., additional, Marzinelli, Ezequiel, additional, Nishiguchi, Michele, additional, Prada, Carlos, additional, Roth, Melissa S., additional, Saha, Mahasweta, additional, Smith, Christopher I., additional, Theis, Kevin R., additional, and Zaneveld, Jesse, additional

Published
2022
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31. Regulation of Oxygenic Photosynthesis during Trophic Transitions in the Green Alga Chromochloris zofingiensis.

Author

Roth, Melissa S, Roth, Melissa S, Gallaher, Sean D, Westcott, Daniel J, Iwai, Masakazu, Louie, Katherine B, Mueller, Maria, Walter, Andreas, Foflonker, Fatima, Bowen, Benjamin P, Ataii, Nassim N, Song, Junha, Chen, Jian-Hua, Blaby-Haas, Crysten E, Larabell, Carolyn, Auer, Manfred, Northen, Trent R, Merchant, Sabeeha S, Niyogi, Krishna K, Roth, Melissa S, Roth, Melissa S, Gallaher, Sean D, Westcott, Daniel J, Iwai, Masakazu, Louie, Katherine B, Mueller, Maria, Walter, Andreas, Foflonker, Fatima, Bowen, Benjamin P, Ataii, Nassim N, Song, Junha, Chen, Jian-Hua, Blaby-Haas, Crysten E, Larabell, Carolyn, Auer, Manfred, Northen, Trent R, Merchant, Sabeeha S, and Niyogi, Krishna K

Abstract

Light and nutrients are critical regulators of photosynthesis and metabolism in plants and algae. Many algae have the metabolic flexibility to grow photoautotrophically, heterotrophically, or mixotrophically. Here, we describe reversible Glc-dependent repression/activation of oxygenic photosynthesis in the unicellular green alga Chromochloris zofingiensis. We observed rapid and reversible changes in photosynthesis, in the photosynthetic apparatus, in thylakoid ultrastructure, and in energy stores including lipids and starch. Following Glc addition in the light, C. zofingiensis shuts off photosynthesis within days and accumulates large amounts of commercially relevant bioproducts, including triacylglycerols and the high-value nutraceutical ketocarotenoid astaxanthin, while increasing culture biomass. RNA sequencing reveals reversible changes in the transcriptome that form the basis of this metabolic regulation. Functional enrichment analyses show that Glc represses photosynthetic pathways while ketocarotenoid biosynthesis and heterotrophic carbon metabolism are upregulated. Because sugars play fundamental regulatory roles in gene expression, physiology, metabolism, and growth in both plants and animals, we have developed a simple algal model system to investigate conserved eukaryotic sugar responses as well as mechanisms of thylakoid breakdown and biogenesis in chloroplasts. Understanding regulation of photosynthesis and metabolism in algae could enable bioengineering to reroute metabolism toward beneficial bioproducts for energy, food, pharmaceuticals, and human health.

Published
2019

33. Termination Provisions Negotiated By Employee And Employer Of Equal Bargaining Power - Waksdale Distinguished

Author

Roth, Melissa

Subjects
Architectural firms -- Cases, Employee dismissals -- Cases, Architectural practice -- Cases, Company legal issue, Business, international
Abstract

Rahman v Cannon Design Architecture Inc. ('Rahman')1, is a recent decision of the Ontario Superior Court of Justice where the Court rejected the plaintiff's argument that the 'just cause' termination [...]

Published
2021

36. Coral fluorescence and symbiosis : photoacclimation, thermal shock, life history changes, and implications for reef monitoring

Author

Roth, Melissa Susan

Subjects
UCSD Dissertations, Academic Marine biology. (Discipline)
Abstract

Coral reefs ecosystems are diverse, productive and globally threatened. Corals have endosymbiotic dinoflagellates, which provide important nutrition. This symbiosis depends on a precarious balance of sunlight captured and processed through photochemistry that can be easily disrupted by environmental stressors including changes in irradiance and temperature. Photoprotective mechanisms are essential to maintaining the symbiosis equilibrium. Corals produce fluorescent proteins, homologous to the popular green fluorescent protein (GFP), that have the potential to be used in photoprotection because of their inherent absorption and emission properties. This dissertation investigated the responses of corals and their dinoflagellate symbionts during photoacclimation, thermal shock and life history stages with particular focus on the effects on fluorescent proteins. In carefully controlled experiments on Acropora yongei, GFP abundance was positively correlated with light intensity and modulated the coral cell internal light environment. A. yongei thermal shock experiments caused the active degradation of GFP, possibly suggesting that GFP provided some role during stress. Cold shock caused more immediate pressure on the corals, but the heat shock was ultimately more deleterious. Life history stages of Seriatopora hystrix expressed different colors of fluorescent proteins, which shifted accordingly to changes in the light environment. Brooded larvae from S. hystrix exhibited a wide range of physiological characteristics, but there were subtle influences of parental environment on larval settlement. A novel methodology using fluorescence to enhance detection of coral recruits was developed and used to characterize the distribution, abundance and microhabitat of small juvenile corals (

Published
2010

37. Total body recharge

Author

Roth, Melissa

Subjects
Exercise -- Methods, General interest, Health, Women's issues/gender studies
Published
2010

38. Stop the pounding

Author

Roth, Melissa

Subjects
Exercise therapy -- Usage, Headache -- Care and treatment, General interest, Health, Women's issues/gender studies
Published
2010

40. Party mix

Author

Roth, Melissa

Subjects
College students, Entertaining -- Humor and anecdotes
Published
1995

41. Rock & roll summer: how to have a darn good time

Author

Johnson, Dean, Rubiner, Michael, Phalen, Tom, Roth, Melissa, Panahpour, Nilou, Relic, Peter J., Aiges, Scott, Gilstrap, Peter, Graff, Gary, Duffy, Thom, Walsh, Jim, Binelli, Mark, Santelli, Robert, McLeese, Don, and McLeese, Mara

Subjects
Summer
Published
1995

42. Using Ancient mtDNA to Track Temporal Genetic Changes of Pacific Herring Populations in the Central Coast of British Columbia

Author

Roth, Melissa Michelle

Abstract

Pacific herring (Clupea pallasi) are an important species of marine ecosystems, and to Coastal First Nations. Herring are now in decline across the Northeast Pacific, but there is much debate on the nature of this decline and its potential impacts on biological diversity of the species. This research project takes an in-depth look at mitochondrial DNA (mtDNA) of ancient herring bones recovered from stratified midden deposits at Namu, British Columbia to document changes in genetic diversity through time (7000 – 100 BP), and to explore the possibility of identifying region-specific herring populations. This study processed 60 samples with a success rate of 83.3% for mtDNA sequence analysis. Our data show that ancient DNA is generally well preserved in ancient herring remains as old as 7000BP, demonstrating the potential for retrieving genetic information about herring of the past. However, our mtDNA (D-loop and cytb) markers proved to be less informative in revealing changes of population diversity. Nuclear DNA markers and next generation sequencing technology are expected to make good use of the recovered herring DNA to better reconstruct natural history in the region.

Published
2015

43. 6 good reasons to stop your 'I'll never have a baby' panic

Author

Roth, Melissa

Subjects
Women -- Physiological aspects, Pregnancy -- Physiological aspects, Aging -- Physiological aspects, Fashion and beauty, Health
Abstract

Women need not fear that they will be unable to get pregnant after the age of 35. Improved health and fertility treatments have increased women's chances of getting pregnant at 35 and over. The average biological clock also does not begin sounding the alarm until age 39.

Published
1999

44. Fertility On Ice

Author

Roth, Melissa

Abstract

Byline: Melissa Roth Photograph by Bill Diodato When you're 37 and stressed about making babies, egg freezing offers hope. Three weeks before my 37th birthday, a good friend called me […]

Published
2008

45. Telepractice for Pediatric Dysphagia: A Case Study

Author

Malandraki, Georgia A., Roth, Melissa, Sheppard, Justine Joan, Malandraki, Georgia A., Roth, Melissa, and Sheppard, Justine Joan

Abstract

A closed-ended intensive pediatric swallowing telepractice program was developed and piloted in one pediatric patient with Opitz BBB/G and Asperger’s Syndromes, oropharyngeal dysphagia and aerophagia. The present study is a case report. Outcome variables included behavioral, swallowing and quality of life variables, and were assessed at baseline and at the end of the four-week program. Selective variables were also assessed at a follow-up family interview four weeks post program completion. Over the four-week intervention period, the patient demonstrated substantial improvements in: oral acceptance of eating-related objects and a variety of foods (behavioral variable), timing of voluntary saliva swallows and aerophagia levels (swallowing variables) and quality of life. Follow-up interview analysis showed that most skills were retained or improved one-month post intervention. This intensive telepractice program proved to be feasible and effective for this pediatric patient with dysphagia.

Published
2014

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