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3. DNA methylation in Marchantia polymorpha

Author

Aguilar-Cruz, A., Grimanelli, Daniel, Haseloff, J., and Arteaga-Vazquez, M. A.

Subjects
DNA methylation, epigenetics, Marchantia polymorpha, epigenetic reprogramming, RNA-directed DNA methylation (RdDM), food and beverages
Abstract

Methylation of DNA is an epigenetic mechanism for the control of gene expression. Alterations in the regulatory pathways involved in the establishment, perpetuation and removal of DNA methylation can lead to severe developmental alterations. Our understanding of the mechanistic aspects and relevance of DNA methylation comes from remarkable studies in well-established angiosperm plant models including maize and Arabidopsis. The study of plant models positioned at basal lineages opens exciting opportunities to expand our knowledge on the function and evolution of the components of DNA methylation. In this Tansley Insight, we summarize current progress in our understanding of the molecular basis and relevance of DNA methylation in the liverwort Marchantia polymorpha.

Published
2019

6. MarpoDB: An Open Registry for $\textit{Marchantia Polymorpha}$ Genetic Parts

Author

Delmans, M, Pollak, B, Haseloff, J, Pollak, Bernardo [0000-0003-2329-7401], Haseloff, Jim [0000-0003-4793-8058], and Apollo - University of Cambridge Repository

Subjects
plant synthetic biology, genetic parts, open source database, genetic databases, $\textit{Marchantia polymorpha}$
Abstract

$\textit{Marchantia polymorpha}$ is an extant relative of the earliest terrestrial plants and has attracted a substantial interest as a model organism for evolutionary and developmental studies. Given its relatively simple genome, compact gene families, simple morphology, ease of propagation and transformation, $\textit{M. polymorpha}$ is becoming a promising platform for plant synthetic biology. Modular genetic parts have been essential for development of synthetic biology approaches, so we sought to design an engineering oriented database for $\textit{M. polymorpha}$ genetic parts where each gene is a standalone functional unit. MarpoDB is a database of $\textit{M. polymorpha}$ genes and genetic parts, which is tailored to become an integral tool for a synthetic biology workflow. Among its features are precompiled cross-database querying to InterPro, Pfam signatures and non-redundant $\textit{Viridiplantae}$ BLAST annotations; BLAST querying to $\textit{M. polymorpha}$ genes; sequence export in GenBank format; recoding of sequences to the common syntax for type IIS assembly and exchange of DNA parts; and a minimalistic, intuitive and interactive user interface for gene models and sequence exploration. Furthermore, we have implemented user input to encourage feedback, collaboration and exchange between the MarpoDB community. MarpoDB source-code is released on GitHub to promote development of computational tools for synthetic biology.

Published
2017

7. Point of View:: A transatlantic perspective on 20 emerging issues in biological engineering

Author

Wintle, BC, Boehm, CR, Rhodes, C, Molloy, JC, Millett, P, Adam, L, Breitling, R, Carlson, R, Casagrande, R, Dando, M, Doubleday, R, Drexler, E, Edwards, B, Ellis, T, Evans, NG, Hammond, R, Haseloff, J, Kahl, L, Kuiken, T, Lichman, BR, Matthewman, CA, Napier, JA, Oheigeartaigh, SS, Patron, NJ, Perello, E, Shapira, P, Tait, J, Takano, E, Sutherland, WJ, Wintle, BC, Boehm, CR, Rhodes, C, Molloy, JC, Millett, P, Adam, L, Breitling, R, Carlson, R, Casagrande, R, Dando, M, Doubleday, R, Drexler, E, Edwards, B, Ellis, T, Evans, NG, Hammond, R, Haseloff, J, Kahl, L, Kuiken, T, Lichman, BR, Matthewman, CA, Napier, JA, Oheigeartaigh, SS, Patron, NJ, Perello, E, Shapira, P, Tait, J, Takano, E, and Sutherland, WJ

Abstract

Advances in biological engineering are likely to have substantial impacts on global society. To explore these potential impacts we ran a horizon scanning exercise to capture a range of perspectives on the opportunities and risks presented by biological engineering. We first identified 70 potential issues, and then used an iterative process to prioritise 20 issues that we considered to be emerging, to have potential global impact, and to be relatively unknown outside the field of biological engineering. The issues identified may be of interest to researchers, businesses and policy makers in sectors such as health, energy, agriculture and the environment.

Published
2017

8. Characterization of Intrinsic Properties of Promoters

Author

Rudge, T. J., Brown, J. R., Federici, F., Dalchau, N., Phillips, A., Ajioka, J. W., and Haseloff, J.

Subjects
fungi, food and beverages
Abstract

Accurate characterization of promoter behavior is essential for the rational design of functional synthetic transcription networks such as logic gates and oscillators. However, transcription rates observed from promoters can vary significantly depending o

Published
2016

9. The Coordination of Cell Division in the Root Meristem of Arabidopsis thaliana

Author

Rea, R. W., Haseloff, J. P., and Bougourd, S. M.

Subjects
Arabidopsis thaliana -- Genetic aspects, Cell division -- Research, Plant genetics -- Research, Roots (Botany) -- Morphology, Biological sciences
Abstract

The cells of higher plants are generally nonmotile and thus the coordination of cell division and cell expansion is crucial in allowing normal growth and development. Little is known, however, about the mechanisms by which particular groups of cells coordinate their division and expansion relative to neighbooring cells during normal development. We are investigating the importance of localised coordination of cell division in determining the architecture of the root meristem of Arabidopsis thaliana. Using a GAL4-GFP transactivation system, the rate of cell division is altered in specific cell layers via targeted misexpression of cell cycle regulatory genes. The consequences of these perturbations are then visualized using high-resolution confocal imaging, followed by computerized three-dimensional reconstruction of cellular architecture. We have shown that altering the rate of cell division in particular layers of the root during embryonic development can have a marked effect on cell division rates and/or expansion in neighboring cells. For example, accelerating cell division rates within the columella region of the root cap significantly increases the number of quiescent center cells and vascular initials. This suggests that perturbation of cell division in the columella is perceived by neighboring cells which adjust their own division rates to compensate. This approach allows us to determine the range and direction of cell-to-cell communication between cell layers during root development and may provide insights into intercellular signaling within the root meristem.

Published
2001

11. Marking cell lineages in living tissue

Author

Kurup, S., Runions, J., Kohler, U., Laplaze, L., Hodge, S., and Haseloff, J.

Subjects
Plant Sciences
Abstract

We have generated a novel genetic system to visualize cell lineages in living tissues at high resolution. Heat shock was used to trigger the excision of a specific transposon and activation of a fluorescent marker gene. A histone-YFP marker was used to allow identification of cell lineages and easy counting of cells. Constitutive expression of a green fluorescent membrane protein was used to provide a precise outline of all surrounding cells. Marked lineages can be induced from specific cells within the organism by targeted laser irradiation, and the fate of the marked cells can be followed non-invasively. We have used the system to map cell lineages originating from the initials of primary and lateral roots in Arabidopsis. The lineage marking technique enabled us to measure the differential contribution of primary root pericycle cell files to developing lateral root primordia. The majority of cells in an emerging lateral root primordium derive from the central file of pericycle founder cells while off-centre founder cells contribute only a minor proliferation of tissue near the base of the root. The system shows great promise for the detailed study of cell division during morphogenesis.

Published
2005

12. Bacteria online - University of Cambridge iGEM 2007 project

Author

Han, Yutao, Hengrung, N., Liew, Y., May, S., Miao, Y., Milde, S., Soh, X., Soirez, L., Wyatt, D., Zhao, Z., Ajioka, J., Brown, J., Goncalves, Jorge, Haseloff, J., Micklem, G., Southall, T., Malyshev, D., Crowe, L., Wernisch, L., Han, Yutao, Hengrung, N., Liew, Y., May, S., Miao, Y., Milde, S., Soh, X., Soirez, L., Wyatt, D., Zhao, Z., Ajioka, J., Brown, J., Goncalves, Jorge, Haseloff, J., Micklem, G., Southall, T., Malyshev, D., Crowe, L., and Wernisch, L.

Published
2008

13. New tools for self-organised pattern formation

Author

Bernhardt, K., Carter, E. J., Chand, N. S., Lee, J., Xu, Y., Zhu, X., Ajioka, J. W., Goncalves, Jorge, Haseloff, J., Micklem, G., Rowe, D., Bernhardt, K., Carter, E. J., Chand, N. S., Lee, J., Xu, Y., Zhu, X., Ajioka, J. W., Goncalves, Jorge, Haseloff, J., Micklem, G., and Rowe, D.

Abstract

Position-dependent gene expression is a critical aspect of the development and behaviour of multicellular organisms. It requires a complex series of interactions to occur between different cell types in addition to intracellular signalling cascades. We used Escherichia coli to study the properties of an artificial signalling system at the interface between two expanding cell populations. We genetically engineered one population to produce a diffusible acyl-homoserine lactone (AHL) signal, and another population to respond to it. Our experiments demonstrate how such a signal can be used to reproducibly generate simple visible patterns with high accuracy in swimming agar. The producing and responding cassettes of two such signalling systems can be linked to produce a symmetric interface for bidirectional communication that can be used to visualise molecular logic. Intracellular feedback between these two cassetteswould then create a framework for self-organised patterning of higher complexity. Adapting the experiments of Basu et al. (Basu et al., 2005) using cell motility, rather than a differential response to AHL concentrations as a way to define zones of response, we noted how the interaction of sender and receiver cell populations on a swimming plate could lead to complex pattern formation. Equipping highly motile strains such as E. coli MC1000 with AHL-mediated autoinducing systems based on Vibrio fischeri luxI/luxR and Pseudomonas aeruginosa lasI/lasR cassettes would allow the amplification of a response to an AHL signal and its propagation. We designed and synthesised codon-optimised auto-inducing luxI/R and lasI/R cassettes as optimal gene expression is crucial for the generation of robust patterns. We still have to complete and test the entire genetic circuitry, although by modelling the system we were able to demonstrate its feasibility.

Published
2007

14. Promiscuous and specific phospholipid binding by domains in ZAC, a membrane-associated Arabidopsis protein with an ARF GAP zinc finger and a C2 domain.

Author

Jensen, R B, Lykke-Andersen, K, Frandsen, G I, Haseloff, J, Jespersen, H M, Mundy, J, Skriver, K, Jensen, R B, Lykke-Andersen, K, Frandsen, G I, Haseloff, J, Jespersen, H M, Mundy, J, and Skriver, K

Abstract

Udgivelsesdato: 2000-Dec, Arabidopsis proteins were predicted which share an 80 residue zinc finger domain known from ADP-ribosylation factor GTPase-activating proteins (ARF GAPs). One of these is a 37 kDa protein, designated ZAC, which has a novel domain structure in which the N-terminal ARF GAP domain and a C-terminal C2 domain are separated by a region without homology to other known proteins. Zac promoter/beta-glucuronidase reporter assays revealed highest expression levels in flowering tissue, rosettes and roots. ZAC protein was immuno-detected mainly in association with membranes and fractionated with Golgi and plasma membrane marker proteins. ZAC membrane association was confirmed in assays by a fusion between ZAC and the green fluorescence protein and prompted an analysis of the in vitro phospholipid-binding ability of ZAC. Phospholipid dot-blot and liposome-binding assays indicated that fusion proteins containing the ZAC-C2 domain bind anionic phospholipids non-specifically, with some variance in Ca2+ and salt dependence. Similar assays demonstrated specific affinity of the ZAC N-terminal region (residues 1-174) for phosphatidylinositol 3-monophosphate (PI-3-P). Binding was dependent in part on an intact zinc finger motif, but proteins containing only the zinc finger domain (residues 1-105) did not bind PI-3-P. Recombinant ZAC possessed GTPase-activating activity on Arabidopsis ARF proteins. These data identify a novel PI-3-P-binding protein region and thereby provide evidence that this phosphoinositide is recognized as a signal in plants. A role for ZAC in the regulation of ARF-mediated vesicular transport in plants is discussed.

Published
2000

15. New tools for self-organised pattern formation

Author

Bernhardt, K., primary, Chand, N.S., additional, Haseloff, J., additional, Goncalves, J.M., additional, Zhu, X., additional, Ajioka, J.W., additional, Xu, Y., additional, Rowe, D., additional, Micklem, G., additional, Lee, J., additional, and Carter, E.J., additional

Published
2007
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17. New tools for self-organized pattern formation

Author

Bernhardt, Kaj, primary, Chand, Nikhilesh Singh, additional, Carter, Elizabeth, additional, Lee, Jisun, additional, Xu, Yang, additional, Zhu, Xueni, additional, Rowe, Duncan, additional, Ajioka, JW, additional, Goncalves, JM, additional, Haseloff, J, additional, and Micklem, G, additional

Published
2007
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18. Aerospace transporter and lifting body activities in Europe and potential participation in the development of the space shuttle orbiter

Author

Fuchs, M, Haseloff, J, and Peters, G

Subjects
Space Vehicles
Abstract

The course of European aerospace research regarding reentry problems is briefly reviewed for the period from 1966 up to the present. The considerable experience gained by Europe, and particularly Germany, is shown to have led to their involvement and participation in the U.S. space shuttle program. The areas of investigation and expected contributions by European cooperation in the shuttle program are outlined.

Published
1972

23. 2′ phosphomonoester, 3′‐5′ phosphodiester bond at a unique site in a circular viral RNA.

Author

Kiberstis, P.A., Haseloff, J., and Zimmern, D.

Abstract

Solanum nodiflorum mottle virus (SNMV) RNA2 is a single‐stranded, covalently closed circular molecule. RNase T2 or nuclease P1 digests of this RNA contain a minor nucleotide of unusual chromatographic and electrophoretic mobility. This nucleotide is resistant to further digestion by T2 or P1 ribonucleases, or by alkali, but is sensitive to venom phosphodiesterase digestion. Alkaline phosphatase digestion yields a product which is RNase T2 and P1 sensitive. The products of these various digests show that the minor nucleotide is a ribonuclease‐resistant dinucleotide carrying a 2′ phosphomonoester group with the core structure C2′p3′p5′A. This dinucleotide is found in a unique RNase T1 product of SNMV RNA2, thus establishing a unique location in the sequence for the 2′ phosphomonoester group at residue 49. Identical results have been obtained with a second related virus. The phosphomonoester group probably results from the RNA ligation event by which the molecules were circularised.

Published
1985
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24. Striking similarities in amino acid sequence among nonstructural proteins encoded by RNA viruses that have dissimilar genomic organization.

Author

Haseloff, J, Goelet, P, Zimmern, D, Ahlquist, P, Dasgupta, R, and Kaesberg, P

Abstract

The plant viruses alfalfa mosaic virus (AMV) and brome mosaic virus (BMV) each divide their genetic information among three RNAs while tobacco mosaic virus (TMV) contains a single genomic RNA. Amino acid sequence comparisons suggest that the single proteins encoded by AMV RNA 1 and BMV RNA 1 and by AMV RNA 2 and BMV RNA 2 are related to the NH2-terminal two-thirds and the COOH-terminal one-third, respectively, of the largest protein encoded by TMV. Separating these two domains in the TMV RNA sequence is an amber termination codon, whose partial suppression allows translation of the downstream domain. Many of the residues that the TMV read-through domain and the segmented plant viruses have in common are also conserved in a read-through domain found in the nonstructural polyprotein of the animal alphaviruses Sindbis and Middelburg. We suggest that, despite substantial differences in gene organization and expression, all of these viruses use related proteins for common functions in RNA replication. Reassortment of functional modules of coding and regulatory sequence from preexisting viral or cellular sources, perhaps via RNA recombination, may be an important mechanism in RNA virus evolution.

Published
1984
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25. Miranda mediates asymmetric protein and RNA localization in the developing nervous system.

Author

Schuldt, A J, Adams, J H, Davidson, C M, Micklem, D R, Haseloff, J, St Johnston, D, and Brand, A H

Abstract

Neuroblasts undergo asymmetric stem cell divisions to generate a series of ganglion mother cells (GMCs). During these divisions, the cell fate determinant Prospero is asymmetrically partitioned to the GMC by Miranda protein, which tethers it to the basal cortex of the dividing neuroblast. Interestingly, prospero mRNA is similarly segregated by the dsRNA binding protein, Staufen. Here we show that Staufen interacts in vivo with a segment of the prospero 3' UTR. Staufen protein and prospero RNA colocalize to the apical side of the neuroblast at interphase, but move to the basal side during prophase. Both the apical and basal localization of Staufen are abolished by the removal of a conserved domain from the carboxyl terminus of the protein, which interacts in a yeast two-hybrid screen with Miranda protein. Furthermore, Miranda colocalizes with Staufen protein and prospero mRNA during neuroblast divisions, and neither Staufen nor prospero RNA are localized in miranda mutants. Thus Miranda, which localizes Prospero protein, also localizes prospero RNA through its interaction with Staufen protein.

Published
1998

26. Sindbis virus proteins nsP1 and nsP2 contain homology to nonstructural proteins from several RNA plant viruses

Author

Ahlquist, P, Strauss, E G, Rice, C M, Strauss, J H, Haseloff, J, and Zimmern, D

Abstract

Although the genetic organization of tobacco mosaic virus (TMV) differs considerably from that of the tripartite viruses (alfalfa mosaic virus [AlMV] and brome mosaic virus [BMV]), all of these RNA plant viruses share three domains of homology among their nonstructural proteins. One such domain, common to the AlMV and BMV 2a proteins and the readthrough portion of TMV p183, is also homologous to the readthrough protein nsP4 of Sindbis virus (Haseloff et al., Proc. Natl. Acad. Sci. U.S.A. 81:4358-4362, 1984). Two more domains are conserved among the AlMV and BMV 1a proteins and TMV p126. We show here that these domains have homology with portions of the Sindbis proteins nsP1 and nsP2, respectively. These results strengthen the view that the four viruses share mechanistic similarities in their replication strategies and may be evolutionarily related. These results also suggest that either the AlMV 1a, BMV 1a, and TMV p126 proteins are multifunctional or Sindbis proteins nsP1 and nsP2 function together as subunits in a single complex.

Published
1985
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27. An indelible lineage marker for Xenopus using a mutated green fluorescent protein

Author

Zernicka-Goetz, M., Jonathon Pines, Ryan, K., Siemering, K. R., Haseloff, J., Evans, M. J., and Gurdon, J. B.

Abstract

We describe the use of a DNA construct (named GFP.RN3) encoding green fluorescent protein as a lineage marker for Xenopus embryos. This offers the following advantages over other lineage markers so far used in Xenopus. When injected as synthetic mRNA, its protein emits intense fluorescence in living embryos. It is non-toxic, and the fluorescence does not bleach when viewed under 480 nm light. It is surprisingly stable, being strongly visible up to the feeding tadpole stage (5 days), and in some tissues for several weeks after mRNA injection. We also describe a construct that encodes a blue fluorescent protein. We exemplify the use of this GFP.RN3 construct for marking the lineage of individual blastomeres at the 32- to 64-cell stage, and as a marker for single transplanted blastula cells. Both procedures have revealed that the descendants of one embryonic cell can contribute single muscle cells to nearly all segmental myotomes rather than predominantly to any one myotome. An independent aim of our work has been to follow the fate of cells in which an early regulatory gene has been temporarily overexpressed. For this purpose, we co-injected GFP.RN3 mRNA and mRNA for the early Xenopus gene Eomes, and found that a high concentration of Eomes results in ectopic muscle gene activation in only the injected cells. This marker may therefore be of general value in providing long term identification of those cells in which an early gene with ephemeral expression has been overexpressed.

29. A simple way to identify non-viable cells within living plant tissue using confocal microscopy

Author

Truernit Elisabeth and Haseloff Jim

Subjects
Plant culture, SB1-1110, Biology (General), QH301-705.5
Abstract

Abstract Background Plant cell death is a normal process during plant development. Mutant plants may exhibit misregulation of this process, which can lead to severe growth defects. Simple ways of visualising cell death in living plant tissues can aid the study of plant development and physiology. Results Spectral variants of the fluorescent SYTOX dyes were tested for their usefulness for the detection of non-viable cells within plant embryos and roots using confocal laser-scanning microscopy. The dyes were selective for non-viable cells and showed very little background staining in living cells. Simultaneous detection of SYTOX dye and fluorescent protein (e.g. GFP) fluorescence was possible. Conclusion The fluorescent SYTOX dyes are useful for an easy and quick first assay of plant cell viability in living plant samples using fluorescence and confocal laser-scanning microscopy.

Published
2008
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30. Arabidopsis thaliana outer ovule integument morphogenesis: Ectopic expression of KNAT1 reveals a compensation mechanism

Author

Truernit Elisabeth and Haseloff Jim

Subjects
Botany, QK1-989
Abstract

Abstract Background The Arabidopsis outer ovule integument is a simple two-cell layered structure that grows around the developing embryo and develops into the outer layer of the seed coat. As one of the functions of the seed coat is the protection of the plant embryo, the outer ovule integument is an example for a plant organ whose morphogenesis has to be precisely regulated. Results To better characterise outer ovule integument morphogenesis, we have isolated some marker lines that show GFP expression in this organ. We have used those lines to identify distinct cell types in the outer integument and to demonstrate similarities between leaves and the outer integument. Using confocal microscopy, we showed that cell sizes and shapes differ between the two cell layers of the outer integument. Expression of KNAT1 in the integuments leads to extra cell divisions specifically in the outer layer of the outer integument. This is being compensated for by a decrease of cell volume in this layer, thus showing that mechanisms exist to control proper ovule integument morphogenesis. Conclusion The Arabidopsis outer ovule integument can be used as a good model system to study the basic principles of plant organ morphogenesis. This work provides new insights into its development and opens new possibilities for the identification of factors involved in the regulation of cell division and elongation during plant organ growth.

Published
2008
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32. Streamlined regulation of chloroplast development in the liverwort Marchantia polymorpha.

Author

Yelina NE, Frangedakis E, Wang Z, Schreier TB, Rever J, Tomaselli M, Forestier ECF, Billakurthi K, Ren S, Bai Y, Stewart-Wood J, Haseloff J, Zhong S, and Hibberd JM

Subjects
Plant Proteins metabolism, Plant Proteins genetics, Chlorophyll metabolism, Transcription Factors metabolism, Transcription Factors genetics, Marchantia metabolism, Marchantia genetics, Marchantia growth & development, Chloroplasts metabolism, Gene Expression Regulation, Plant
Abstract

Chloroplasts develop from undifferentiated plastids in response to light. In angiosperms, after the perception of light, the Elongated Hypocotyl 5 (HY5) transcription factor initiates photomorphogenesis, and two families of transcription factors known as GOLDEN2-LIKE (GLK) and GATA are considered master regulators of chloroplast development. In addition, the MIR171-targeted SCARECROW-LIKE GRAS transcription factors also impact chlorophyll biosynthesis. The extent to which these proteins carry out conserved roles in non-seed plants is not known. Using the model liverwort Marchantia polymorpha, we show that GLK controls chloroplast biogenesis, and HY5 shows a small conditional effect on chlorophyll content. Chromatin immunoprecipitation sequencing (ChIP-seq) revealed that MpGLK has a broader set of targets than has been reported in angiosperms. We also identified a functional GLK homolog in green algae. In summary, our data support the hypothesis that GLK carries out a conserved role relating to chloroplast biogenesis in land plants and green algae., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2024
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33. MYB-related transcription factors control chloroplast biogenesis.

Author

Frangedakis E, Yelina NE, Billakurthi K, Hua L, Schreier T, Dickinson PJ, Tomaselli M, Haseloff J, and Hibberd JM

Subjects
Marchantia genetics, Marchantia metabolism, Photosynthesis genetics, Chlorophyll metabolism, Plant Proteins metabolism, Plant Proteins genetics, Mutation, Organelle Biogenesis, Chloroplasts metabolism, Chloroplasts genetics, Arabidopsis genetics, Arabidopsis metabolism, Transcription Factors metabolism, Transcription Factors genetics, Gene Expression Regulation, Plant, Arabidopsis Proteins metabolism, Arabidopsis Proteins genetics
Abstract

Chloroplast biogenesis is dependent on master regulators from the GOLDEN2-LIKE (GLK) family of transcription factors. However, glk mutants contain residual chlorophyll, indicating that other proteins must be involved. Here, we identify MYB-related transcription factors as regulators of chloroplast biogenesis in the liverwort Marchantia polymorpha and angiosperm Arabidopsis thaliana. In both species, double-mutant alleles in MYB-related genes show very limited chloroplast development, and photosynthesis gene expression is perturbed to a greater extent than in GLK mutants. Genes encoding enzymes of chlorophyll biosynthesis are controlled by MYB-related and GLK proteins, whereas those allowing CO 2 fixation, photorespiration, and photosystem assembly and repair require MYB-related proteins. Regulation between the MYB-related and GLK transcription factors appears more extensive in A. thaliana than in M. polymorpha. Thus, MYB-related and GLK genes have overlapping as well as distinct targets. We conclude that MYB-related and GLK transcription factors orchestrate chloroplast development in land plants., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published
2024
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34. Optimizing Promoters and Subcellular Localization for Constitutive Transgene Expression in Marchantia polymorpha.

Author

Tse SW, Annese D, Romani F, Guzman-Chavez F, Bonter I, Forestier E, Frangedakis E, and Haseloff J

Subjects
Plant Proteins genetics, Plant Proteins metabolism, Caulimovirus genetics, Marchantia genetics, Marchantia metabolism, Promoter Regions, Genetic genetics, Gene Expression Regulation, Plant, Transgenes, Plants, Genetically Modified
Abstract

Marchantia polymorpha has become an important model system for comparative studies and synthetic biology. The systematic characterization of genetic elements would make heterologous gene expression more predictable in this test bed for gene circuit assembly and bioproduction. Yet, the toolbox of genetic parts for Marchantia includes only a few constitutive promoters that need benchmarking to assess their utility. We compared the expression patterns of previously characterized and new constitutive promoters. We found that driving expression with the double enhancer version of the cauliflower mosaic virus 35S promoter (pro35S × 2) provided the highest yield of proteins, although it also inhibits the growth of transformants. In contrast, promoters derived from the Marchantia genes for ETHYLENE RESPONSE FACTOR 1 and the CLASS II HOMEODOMAIN-LEUCINE ZIPPER protein drove expression to higher levels across all tissues without a growth penalty and can provide intermediate levels of gene expression. In addition, we showed that the cytosol is the best subcellular compartment to target heterologous proteins for higher levels of expression without a significant growth burden. To demonstrate the potential of these promoters in Marchantia, we expressed RUBY, a polycistronic betalain synthesis cassette linked by P2A sequences, to demonstrate coordinated expression of metabolic enzymes. A heat-shock-inducible promoter was used to further mitigate growth burdens associated with high amounts of betalain accumulation. We have expanded the existing tool kit for gene expression in Marchantia and provided new resources for the Marchantia research community., (© The Author(s) 2024. Published by Oxford University Press on behalf of Japanese Society of Plant Physiologists.)

Published
2024
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35. The landscape of transcription factor promoter activity during vegetative development in Marchantia.

Author

Romani F, Sauret-Güeto S, Rebmann M, Annese D, Bonter I, Tomaselli M, Dierschke T, Delmans M, Frangedakis E, Silvestri L, Rever J, Bowman JL, Romani I, and Haseloff J

Subjects
Meristem genetics, Meristem growth & development, Plant Proteins genetics, Plant Proteins metabolism, Gene Expression Regulation, Plant, Marchantia genetics, Marchantia growth & development, Promoter Regions, Genetic genetics, Transcription Factors genetics, Transcription Factors metabolism
Abstract

Transcription factors (TFs) are essential for the regulation of gene expression and cell fate determination. Characterizing the transcriptional activity of TF genes in space and time is a critical step toward understanding complex biological systems. The vegetative gametophyte meristems of bryophytes share some characteristics with the shoot apical meristems of flowering plants. However, the identity and expression profiles of TFs associated with gametophyte organization are largely unknown. With only ∼450 putative TF genes, Marchantia (Marchantia polymorpha) is an outstanding model system for plant systems biology. We have generated a near-complete collection of promoter elements derived from Marchantia TF genes. We experimentally tested reporter fusions for all the TF promoters in the collection and systematically analyzed expression patterns in Marchantia gemmae. This allowed us to build a map of expression domains in early vegetative development and identify a set of TF-derived promoters that are active in the stem-cell zone. The cell markers provide additional tools and insight into the dynamic regulation of the gametophytic meristem and its evolution. In addition, we provide an online database of expression patterns for all promoters in the collection. We expect that these promoter elements will be useful for cell-type-specific expression, synthetic biology applications, and functional genomics., Competing Interests: Conflict of interest statement. None declared., (© The Author(s) 2024. Published by Oxford University Press on behalf of American Society of Plant Biologists.)

Published
2024
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36. An enhancer trap system to track developmental dynamics in Marchantia polymorpha.

Author

Marron AO, Sauret-Güeto S, Rebmann M, Silvestri L, Tomaselli M, and Haseloff J

Subjects
Indoleacetic Acids metabolism, Cell Division, Marchantia genetics, Marchantia metabolism
Abstract

A combination of streamlined genetics, experimental tractability and relative morphological simplicity compared to vascular plants makes the liverwort Marchantia polymorpha an ideal model system for studying many aspects of plant biology. Here we describe a transformation vector combining a constitutive fluorescent membrane marker with a nuclear marker that is regulated by nearby enhancer elements and use this to produce a library of enhancer trap lines for Marchantia. Screening gemmae from these lines allowed the identification and characterization of novel marker lines, including markers for rhizoids and oil cells. The library allowed the identification of a margin tissue running around the thallus edge, highlighted during thallus development. The expression of this marker is correlated with auxin levels. We generated multiple markers for the meristematic apical notch region, which have different spatial expression patterns, reappear at different times during meristem regeneration following apical notch excision and have varying responses to auxin supplementation or inhibition. This reveals that there are proximodistal substructures within the apical notch that could not be observed otherwise. We employed our markers to study Marchantia sporeling development, observing meristem emergence as defining the protonema-to-prothallus stage transition, and subsequent production of margin tissue during the prothallus stage. Exogenous auxin treatment stalls meristem emergence at the protonema stage but does not inhibit cell division, resulting in callus-like sporelings with many rhizoids, whereas pharmacologically inhibiting auxin synthesis and transport does not prevent meristem emergence. This enhancer trap system presents a useful resource for the community and will contribute to future Marchantia research., (© 2023 The Authors. The Plant Journal published by Society for Experimental Biology and John Wiley & Sons Ltd.)

Published
2023
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37. An optimized transformation protocol for Anthoceros agrestis and three more hornwort species.

Author

Waller M, Frangedakis E, Marron AO, Sauret-Güeto S, Rever J, Sabbagh CRR, Hibberd JM, Haseloff J, Renzaglia KS, and Szövényi P

Subjects
Phylogeny, Seeds, Anthocerotophyta genetics, Embryophyta, Bryophyta genetics
Abstract

Land plants comprise two large monophyletic lineages, the vascular plants and the bryophytes, which diverged from their most recent common ancestor approximately 480 million years ago. Of the three lineages of bryophytes, only the mosses and the liverworts are systematically investigated, while the hornworts are understudied. Despite their importance for understanding fundamental questions of land plant evolution, they only recently became amenable to experimental investigation, with Anthoceros agrestis being developed as a hornwort model system. Availability of a high-quality genome assembly and a recently developed genetic transformation technique makes A. agrestis an attractive model species for hornworts. Here we describe an updated and optimized transformation protocol for A. agrestis, which can be successfully used to genetically modify one more strain of A. agrestis and three more hornwort species, Anthoceros punctatus, Leiosporoceros dussii, and Phaeoceros carolinianus. The new transformation method is less laborious, faster, and results in the generation of greatly increased numbers of transformants compared with the previous method. We have also developed a new selection marker for transformation. Finally, we report the development of a set of different cellular localization signal peptides for hornworts providing new tools to better understand the hornwort cell biology., (© 2023 The Authors. The Plant Journal published by Society for Experimental Biology and John Wiley & Sons Ltd.)

Published
2023
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38. Paper-Based Multiplex Sensors for the Optical Detection of Plant Stress.

Author

Zedler M, Tse SW, Ruiz-Gonzalez A, and Haseloff J

Abstract

The rising population and the ongoing climate crisis call for improved means to monitor and optimise agriculture. A promising approach to tackle current challenges in food production is the early diagnosis of plant diseases through non-invasive methods, such as the detection of volatiles. However, current devices for detection of multiple volatiles are based on electronic noses, which are expensive, require complex circuit assembly, may involve metal oxides with heating elements, and cannot easily be adapted for some applications that require miniaturisation or limit front-end use of electronic components. To address these challenges, a low-cost optoelectronic nose using chemo-responsive colorimetric dyes drop-casted onto filter paper has been developed in the current work. The final sensors could be used for the quantitative detection of up to six plant volatiles through changes in colour intensities with a sub-ppm level limit of detection, one of the lowest limits of detection reported so far using colorimetric gas sensors. Sensor colouration could be analysed using a low-cost spectrometer and the results could be processed using a microcontroller. The measured volatiles could be used for the early detection of plant abiotic stress as early as two days after exposure to two different stresses: high salinity and starvation. This approach allowed a lowering of costs to GBP 1 per diagnostic sensing paper. Furthermore, the small size of the paper sensors allows for their use in confined settings, such as Petri dishes. This detection of abiotic stress could be easily achieved by exposing the devices to living plants for 1 h. This technology has the potential to be used for monitoring of plant development in field applications, early recognition of stress, implementation of preventative measures, and mitigation of harvest losses.

Published
2023
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39. A Simple Reversed Iontophoresis-Based Sensor to Enable In Vivo Multiplexed Measurement of Plant Biomarkers Using Screen-Printed Electrodes.

Author

Ruiz-Gonzalez A, Kempson H, and Haseloff J

Subjects
Electrodes, Ions, Iontophoresis, Electroplating
Abstract

The direct quantification of plant biomarkers in sap is crucial to enhancing crop production. However, current approaches are inaccurate, involving the measurement of non-specific parameters such as colour intensity of leaves, or requiring highly invasive processes for the extraction of sap. In addition, these methods rely on bulky and expensive equipment, and they are time-consuming. The present work reports for the first time a low-cost sensing device that can be used for the simultaneous determination of sap K+ and pH in living plants by means of reverse iontophoresis. A screen-printed electrode was modified by deposition of a K+-selective membrane, achieving a super-Nernstian sensitivity of 70 mV Log[K+]−1 and a limit of detection within the micromolar level. In addition, the cathode material of the reverse iontophoresis device was modified by electrodeposition of RuOx particles. This electrode could be used for the direct extraction of ions from plant leaves and the amperometric determination of pH within the physiological range (pH 3−8), triggered by the selective reaction of RuOx with H+. A portable and low-cost (<£60) microcontroller-based device was additionally designed to enable its use in low-resource settings. The applicability of this system was demonstrated by measuring the changes in concentration of K+ and pH in tomato plants before and after watering with deionised water. These results represent a step forward in the design of affordable and non-invasive devices for the monitoring of key biomarkers in plants, with a plethora of applications in smart farming and precision agriculture among others.

Published
2023
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40. In Vivo Sensing of pH in Tomato Plants Using a Low-Cost and Open-Source Device for Precision Agriculture.

Author

Ruiz-Gonzalez A, Kempson H, and Haseloff J

Subjects
Agriculture, Hydrogen-Ion Concentration, Monitoring, Physiologic, Oxides, Solanum lycopersicum
Abstract

The development of sensing devices for precision agriculture is crucial to boost crop yields and limit shortages in food productions due to the growing population. However, current approaches cannot provide direct information about the physiological status of the plants, reducing sensing accuracy. The development of implanted devices for plant monitoring represents a step forward in this field, enabling the direct assessment of key biomarkers in plants. However, available devices are expensive and cannot be used for long-term applications. The current work presents the application of ruthenium oxide-based nanofilms for the in vivo monitoring of pH in plants. The sensors were manufactured using the low-cost electrodeposition of RuO2 films, and the final device could be successfully incorporated for the monitoring of xylem sap pH for at least 10 h. RuO2 nanoparticles were chosen as the sensing material due to its biocompatibility and chemical stability. To reduce the noise rates and drift of the sensors, a protective layer consisting of a cellulose/PDMS hybrid material was deposited by an aerosol method (>GBP 50), involving off-the-shelf devices, leading to a good control of film thickness. Nanometrically thin films with a thickness of 80 nm and roughness below 3 nm were fabricated. This film led to a seven-fold decrease in drift while preserving the selectivity of the sensors towards H+ ions. The sensing devices were tested in vivo by implantation inside a tomato plant. Environmental parameters such as humidity and temperature were additionally monitored using a low-cost Wio Terminal device, and the data were sent wirelessly to an online server. The interactions between plant tissues and metal oxide-based sensors were finally studied, evidencing the formation of a lignified layer between the sensing film and xylem. Thus, this work reports for the first time a low-cost electrochemical sensor that can be used for the continuous monitoring of pH in xylem sap. This device can be easily modified to improve the long-term performance when implanted inside plant tissues, representing a step forward in the development of precision agriculture technologies.

Published
2022
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41. Root system size and root hair length are key phenes for nitrate acquisition and biomass production across natural variation in Arabidopsis.

Author

De Pessemier J, Moturu TR, Nacry P, Ebert R, De Gernier H, Tillard P, Swarup K, Wells DM, Haseloff J, Murray SC, Bennett MJ, Inzé D, Vincent CI, and Hermans C

Subjects
Anion Transport Proteins genetics, Anion Transport Proteins metabolism, Biomass, Nitrates metabolism, Nitrogen Oxides metabolism, Plant Roots metabolism, Arabidopsis genetics, Arabidopsis metabolism, Arabidopsis Proteins metabolism
Abstract

The role of root phenes in nitrogen (N) acquisition and biomass production was evaluated in 10 contrasting natural accessions of Arabidopsis thaliana L. Seedlings were grown on vertical agar plates with two different nitrate supplies. The low N treatment increased the root to shoot biomass ratio and promoted the proliferation of lateral roots and root hairs. The cost of a larger root system did not impact shoot biomass. Greater biomass production could be achieved through increased root length or through specific root hair characteristics. A greater number of root hairs may provide a low-resistance pathway under elevated N conditions, while root hair length may enhance root zone exploration under low N conditions. The variability of N uptake and the expression levels of genes encoding nitrate transporters were measured. A positive correlation was found between root system size and high-affinity nitrate uptake, emphasizing the benefits of an exploratory root organ in N acquisition. The expression levels of NRT1.2/NPF4.6, NRT2.2, and NRT1.5/NPF7.3 negatively correlated with some root morphological traits. Such basic knowledge in Arabidopsis demonstrates the importance of root phenes to improve N acquisition and paves the way to design eudicot ideotypes., (© The Author(s) 2022. Published by Oxford University Press on behalf of Sleep Research Society. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2022
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42. Constructing Cell-Free Expression Systems for Low-Cost Access.

Author

Guzman-Chavez F, Arce A, Adhikari A, Vadhin S, Pedroza-Garcia JA, Gandini C, Ajioka JW, Molloy J, Sanchez-Nieto S, Varner JD, Federici F, and Haseloff J

Subjects
Cell-Free System, Protein Biosynthesis, Nucleotides, Pyruvic Acid
Abstract

Cell-free systems for gene expression have gained attention as platforms for the facile study of genetic circuits and as highly effective tools for teaching. Despite recent progress, the technology remains inaccessible for many in low- and middle-income countries due to the expensive reagents required for its manufacturing, as well as specialized equipment required for distribution and storage. To address these challenges, we deconstructed processes required for cell-free mixture preparation and developed a set of alternative low-cost strategies for easy production and sharing of extracts. First, we explored the stability of cell-free reactions dried through a low-cost device based on silica beads, as an alternative to commercial automated freeze dryers. Second, we report the positive effect of lactose as an additive for increasing protein synthesis in maltodextrin-based cell-free reactions using either circular or linear DNA templates. The modifications were used to produce active amounts of two high-value reagents: the isothermal polymerase Bst and the restriction enzyme Bsa I. Third, we demonstrated the endogenous regeneration of nucleoside triphosphates and synthesis of pyruvate in cell-free systems (CFSs) based on phosphoenol pyruvate (PEP) and maltodextrin (MDX). We exploited this novel finding to demonstrate the use of a cell-free mixture completely free of any exogenous nucleotide triphosphates (NTPs) to generate high yields of sfGFP expression. Together, these modifications can produce desiccated extracts that are 203-424-fold cheaper than commercial versions. These improvements will facilitate wider use of CFS for research and education purposes.

Published
2022
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43. Decentralizing Cell-Free RNA Sensing With the Use of Low-Cost Cell Extracts.

Author

Arce A, Guzman Chavez F, Gandini C, Puig J, Matute T, Haseloff J, Dalchau N, Molloy J, Pardee K, and Federici F

Abstract

Cell-free gene expression systems have emerged as a promising platform for field-deployed biosensing and diagnostics. When combined with programmable toehold switch-based RNA sensors, these systems can be used to detect arbitrary RNAs and freeze-dried for room temperature transport to the point-of-need. These sensors, however, have been mainly implemented using reconstituted PURE cell-free protein expression systems that are difficult to source in the Global South due to their high commercial cost and cold-chain shipping requirements. Based on preliminary demonstrations of toehold sensors working on lysates, we describe the fast prototyping of RNA toehold switch-based sensors that can be produced locally and reduce the cost of sensors by two orders of magnitude. We demonstrate that these in-house cell lysates provide sensor performance comparable to commercial PURE cell-free systems. We further optimize these lysates with a CRISPRi strategy to enhance the stability of linear DNAs by knocking-down genes responsible for linear DNA degradation. This enables the direct use of PCR products for fast screening of new designs. As a proof-of-concept, we develop novel toehold sensors for the plant pathogen Potato Virus Y (PVY), which dramatically reduces the yield of this important staple crop. The local implementation of low-cost cell-free toehold sensors could enable biosensing capacity at the regional level and lead to more decentralized models for global surveillance of infectious disease., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Arce, Guzman Chavez, Gandini, Puig, Matute, Haseloff, Dalchau, Molloy, Pardee and Federici.)

Published
2021
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44. Construction of DNA Tools for Hyperexpression in Marchantia Chloroplasts.

Author

Frangedakis E, Guzman-Chavez F, Rebmann M, Markel K, Yu Y, Perraki A, Tse SW, Liu Y, Rever J, Sauret-Gueto S, Goffinet B, Schneider H, and Haseloff J

Subjects
Genes, Plant, Plant Proteins biosynthesis, Plant Proteins genetics, Plant Proteins metabolism, Protein Binding, Synthetic Biology methods, Transcription, Genetic, Transcriptome, Transformation, Genetic, Chloroplasts genetics, DNA, Recombinant genetics, Marchantia genetics
Abstract

Chloroplasts are attractive platforms for synthetic biology applications since they are capable of driving very high levels of transgene expression, if mRNA production and stability are properly regulated. However, plastid transformation is a slow process and currently limited to a few plant species. The liverwort Marchantia polymorpha is a simple model plant that allows rapid transformation studies; however, its potential for protein hyperexpression has not been fully exploited. This is partially due to the fact that chloroplast post-transcriptional regulation is poorly characterized in this plant. We have mapped patterns of transcription in Marchantia chloroplasts. Furthermore, we have obtained and compared sequences from 51 bryophyte species and identified putative sites for pentatricopeptide repeat protein binding that are thought to play important roles in mRNA stabilization. Candidate binding sites were tested for their ability to confer high levels of reporter gene expression in Marchantia chloroplasts, and levels of protein production and effects on growth were measured in homoplastic transformed plants. We have produced novel DNA tools for protein hyperexpression in this facile plant system that is a test-bed for chloroplast engineering.

Published
2021
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45. Rapid and Modular DNA Assembly for Transformation of Marchantia Chloroplasts.

Author

Frangedakis E, Markel K, Sauret-Gueto S, and Haseloff J

Subjects
DNA, Plant metabolism, Marchantia growth & development, Plants, Genetically Modified growth & development, Synthetic Biology, Chloroplasts genetics, DNA, Plant genetics, Genetic Engineering methods, Marchantia genetics, Plants, Genetically Modified genetics, Transformation, Genetic
Abstract

The bryophyte Marchantia polymorpha , has attracted significant attention as a powerful experimental system for studying aspects of plant biology including synthetic biology applications. We describe an efficient and simple recursive Type IIS DNA assembly method for the generation of DNA constructs for chloroplast genome manipulation, and an optimized technique for Marchantia chloroplast genome transformation. The utility of the system was demonstrated by the expression of a chloroplast codon-optimized cyan fluorescent protein.

Published
2021
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46. Interpretation of morphogen gradients by a synthetic bistable circuit.

Author

Grant PK, Szep G, Patange O, Halatek J, Coppard V, Csikász-Nagy A, Haseloff J, Locke JCW, Dalchau N, and Phillips A

Subjects
Computer Simulation, Gene Expression Regulation, Bacterial, Gene Regulatory Networks, Models, Biological, Synthetic Biology, Transcription Factors, Escherichia coli cytology, Escherichia coli genetics, Escherichia coli growth & development
Abstract

During development, cells gain positional information through the interpretation of dynamic morphogen gradients. A proposed mechanism for interpreting opposing morphogen gradients is mutual inhibition of downstream transcription factors, but isolating the role of this specific motif within a natural network remains a challenge. Here, we engineer a synthetic morphogen-induced mutual inhibition circuit in E. coli populations and show that mutual inhibition alone is sufficient to produce stable domains of gene expression in response to dynamic morphogen gradients, provided the spatial average of the morphogens falls within the region of bistability at the single cell level. When we add sender devices, the resulting patterning circuit produces theoretically predicted self-organised gene expression domains in response to a single gradient. We develop computational models of our synthetic circuits parameterised to timecourse fluorescence data, providing both a theoretical and experimental framework for engineering morphogen-induced spatial patterning in cell populations.

Published
2020
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47. Systematic Tools for Reprogramming Plant Gene Expression in a Simple Model, Marchantia polymorpha .

Author

Sauret-Güeto S, Frangedakis E, Silvestri L, Rebmann M, Tomaselli M, Markel K, Delmans M, West A, Patron NJ, and Haseloff J

Subjects
Chloroplasts genetics, DNA, Plant genetics, DNA, Plant metabolism, Genes, Plant genetics, Transcriptome genetics, Gene Editing methods, Gene Expression Regulation, Plant genetics, Marchantia genetics, Marchantia growth & development, Marchantia physiology, Software, Synthetic Biology methods
Abstract

We present the OpenPlant toolkit, a set of interlinked resources and techniques to develop Marchantia as testbed for bioengineering in plants. Marchantia is a liverwort, a simple plant with an open form of development that allows direct visualization of gene expression and dynamics of cellular growth in living tissues. We describe new techniques for simple and efficient axenic propagation and maintenance of Marchantia lines with no requirement for glasshouse facilities. Marchantia plants spontaneously produce clonal propagules within a few weeks of regeneration, and lines can be amplified million-fold in a single generation by induction of the sexual phase of growth, crossing, and harvesting of progeny spores. The plant has a simple morphology and genome with reduced gene redundancy, and the dominant phase of its life cycle is haploid, making genetic analysis easier. We have built robust Loop assembly vector systems for nuclear and chloroplast transformation and genome editing. These have provided the basis for building and testing a modular library of standardized DNA elements with highly desirable properties. We have screened transcriptomic data to identify a range of candidate genes, extracted putative promoter sequences, and tested them in vivo to identify new constitutive promoter elements. The resources have been combined into a toolkit for plant bioengineering that is accessible for laboratories without access to traditional facilities for plant biology research. The toolkit is being made available under the terms of the OpenMTA and will facilitate the establishment of common standards and the use of this simple plant as testbed for synthetic biology.

Published
2020
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48. DNA methylation in Marchantia polymorpha.

Author

Aguilar-Cruz A, Grimanelli D, Haseloff J, and Arteaga-Vázquez MA

Subjects
DNA-Directed RNA Polymerases metabolism, Marchantia growth & development, Models, Biological, RNA, Plant metabolism, DNA Methylation genetics, Marchantia genetics
Abstract

Methylation of DNA is an epigenetic mechanism for the control of gene expression. Alterations in the regulatory pathways involved in the establishment, perpetuation and removal of DNA methylation can lead to severe developmental alterations. Our understanding of the mechanistic aspects and relevance of DNA methylation comes from remarkable studies in well-established angiosperm plant models including maize and Arabidopsis. The study of plant models positioned at basal lineages opens exciting opportunities to expand our knowledge on the function and evolution of the components of DNA methylation. In this Tansley Insight, we summarize current progress in our understanding of the molecular basis and relevance of DNA methylation in the liverwort Marchantia polymorpha., (© 2019 The Authors. New Phytologist © 2019 New Phytologist Trust.)

Published
2019
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49. Loop assembly: a simple and open system for recursive fabrication of DNA circuits.

Author

Pollak B, Cerda A, Delmans M, Álamos S, Moyano T, West A, Gutiérrez RA, Patron NJ, Federici F, and Haseloff J

Subjects
Automation, Marchantia genetics, Plasmids genetics, Promoter Regions, Genetic genetics, Reproducibility of Results, DNA, Plant genetics, Genetic Vectors genetics
Abstract

High-efficiency methods for DNA assembly have enabled the routine assembly of synthetic DNAs of increased size and complexity. However, these techniques require customization, elaborate vector sets or serial manipulations for the different stages of assembly. We have developed Loop assembly based on a recursive approach to DNA fabrication. The system makes use of two Type IIS restriction endonucleases and corresponding vector sets for efficient and parallel assembly of large DNA circuits. Standardized level 0 parts can be assembled into circuits containing 1, 4, 16 or more genes by looping between the two vector sets. The vectors also contain modular sites for hybrid assembly using sequence overlap methods. Loop assembly enables efficient and versatile DNA fabrication for plant transformation. We show the construction of plasmids up to 16 genes and 38 kb with high efficiency (> 80%). We have characterized Loop assembly on over 200 different DNA constructs and validated the fidelity of the method by high-throughput Illumina plasmid sequencing. Our method provides a simple generalized solution for DNA construction with standardized parts. The cloning system is provided under an OpenMTA license for unrestricted sharing and open access., (© 2018 The Authors. New Phytologist © 2018 New Phytologist Trust.)

Published
2019
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50. Opening options for material transfer.

Author

Kahl L, Molloy J, Patron N, Matthewman C, Haseloff J, Grewal D, Johnson R, and Endy D

Subjects
Humans, Internationality legislation & jurisprudence, United Kingdom, United States, Biotechnology legislation & jurisprudence, Technology Transfer
Published
2018
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