BibBase https://bibbase.org/zotero/upscpub
  2020 (128)
Heterologous microProtein expression identifies LITTLE NINJA, a dominant regulator of jasmonic acid signaling. Hong, S., Sun, B., Straub, D., Blaakmeer, A., Mineri, L., Koch, J., Brinch-Pedersen, H., Holme, I. B., Burow, M., Lyngs Jørgensen, H. J., Albà, M. M., & Wenkel, S. Proceedings of the National Academy of Sciences, 117(42): 26197–26205. October 2020.
Heterologous microProtein expression identifies LITTLE NINJA, a dominant regulator of jasmonic acid signaling [link]Paper   doi   link   bibtex   abstract  
Roadmap for Accelerated Domestication of an Emerging Perennial Grain Crop. DeHaan, L., Larson, S., López-Marqués, R. L., Wenkel, S., Gao, C., & Palmgren, M. Trends in Plant Science, 25(6): 525–537. June 2020.
Roadmap for Accelerated Domestication of an Emerging Perennial Grain Crop [link]Paper   doi   link   bibtex  
Light affects tissue patterning of the hypocotyl in the shade-avoidance response. Botterweg-Paredes, E., Blaakmeer, A., Hong, S., Sun, B., Mineri, L., Kruusvee, V., Xie, Y., Straub, D., Ménard, D., Pesquet, E., & Wenkel, S. PLOS Genetics, 16(3): e1008678. March 2020.
Light affects tissue patterning of the hypocotyl in the shade-avoidance response [link]Paper   doi   link   bibtex   abstract  
Control of flowering in rice through synthetic microProteins. Eguen, T., Ariza, J. G., Brambilla, V., Sun, B., Bhati, K. K., Fornara, F., & Wenkel, S. Journal of Integrative Plant Biology, 62(6): 730–736. 2020.
Control of flowering in rice through synthetic microProteins [link]Paper   doi   link   bibtex   abstract  
Light Triggers the miRNA-Biogenetic Inconsistency for De-etiolated Seedling Survivability in Arabidopsis thaliana. Choi, S. W., Ryu, M. Y., Viczián, A., Jung, H. J., Kim, G. M., Arce, A. L., Achkar, N. P., Manavella, P., Dolde, U., Wenkel, S., Molnár, A., Nagy, F., Cho, S. K., & Yang, S. W. Molecular Plant, 13(3): 431–445. March 2020.
Light Triggers the miRNA-Biogenetic Inconsistency for De-etiolated Seedling Survivability in Arabidopsis thaliana [link]Paper   doi   link   bibtex   abstract  
Multi-level analysis of the interactions between REVOLUTA and MORE AXILLARY BRANCHES 2 in controlling plant development reveals parallel, independent and antagonistic functions. Hong, S., Botterweg-Paredes, E., Doll, J., Eguen, T., Blaakmeer, A., Matton, S., Xie, Y., Skjøth Lunding, B., Zentgraf, U., Guan, C., Jiao, Y., & Wenkel, S. Development, 147(10): dev183681. May 2020.
Multi-level analysis of the interactions between REVOLUTA and MORE AXILLARY BRANCHES 2 in controlling plant development reveals parallel, independent and antagonistic functions [link]Paper   doi   link   bibtex   abstract  
Global Analysis of Cereal microProteins Suggests Diverse Roles in Crop Development and Environmental Adaptation. Bhati, K. K., Kruusvee, V., Straub, D., Chandran, A. K. N., Jung, K., & Wenkel, S. G3 Genes\textbarGenomes\textbarGenetics, 10(10): 3709–3717. October 2020.
Global Analysis of Cereal microProteins Suggests Diverse Roles in Crop Development and Environmental Adaptation [link]Paper   doi   link   bibtex   abstract  
An atypical short-chain dehydrogenase–reductase functions in the relaxation of photoprotective qH in Arabidopsis. Amstutz, C. L., Fristedt, R., Schultink, A., Merchant, S. S., Niyogi, K. K., & Malnoë, A. Nature Plants, 6(2): 154–166. February 2020.
An atypical short-chain dehydrogenase–reductase functions in the relaxation of photoprotective qH in Arabidopsis [link]Paper   doi   link   bibtex   abstract  
Wounding-induced changes in cellular pressure and localized auxin signalling spatially coordinate restorative divisions in roots. Hoermayer, L., Montesinos, J. C., Marhava, P., Benková, E., Yoshida, S., & Friml, J. Proceedings of the National Academy of Sciences, 117(26): 15322–15331. June 2020. Publisher: Proceedings of the National Academy of Sciences
Wounding-induced changes in cellular pressure and localized auxin signalling spatially coordinate restorative divisions in roots [link]Paper   doi   link   bibtex  
Local and Systemic Effects of Brassinosteroid Perception in Developing Phloem. Graeff, M., Rana, S., Marhava, P., Moret, B., & Hardtke, C. S. Current Biology, 30(9): 1626–1638.e3. May 2020.
Local and Systemic Effects of Brassinosteroid Perception in Developing Phloem [link]Paper   doi   link   bibtex   abstract  
Arabidopsis Flippases Cooperate with ARF GTPase Exchange Factors to Regulate the Trafficking and Polarity of PIN Auxin Transporters[OPEN]. Zhang, X., Adamowski, M., Marhava, P., Tan, S., Zhang, Y., Rodriguez, L., Zwiewka, M., Pukyšová, V., Sánchez, A. S., Raxwal, V. K., Hardtke, C. S., Nodzyński, T., & Friml, J. The Plant Cell, 32(5): 1644–1664. May 2020.
Arabidopsis Flippases Cooperate with ARF GTPase Exchange Factors to Regulate the Trafficking and Polarity of PIN Auxin Transporters[OPEN] [link]Paper   doi   link   bibtex   abstract  
Plasma Membrane Domain Patterning and Self-Reinforcing Polarity in Arabidopsis. Marhava, P., Aliaga Fandino, A. C., Koh, S. W. H., Jelínková, A., Kolb, M., Janacek, D. P., Breda, A. S., Cattaneo, P., Hammes, U. Z., Petrášek, J., & Hardtke, C. S. Developmental Cell, 52(2): 223–235.e5. January 2020.
Plasma Membrane Domain Patterning and Self-Reinforcing Polarity in Arabidopsis [link]Paper   doi   link   bibtex   abstract  
Local auxin competition explains fragmented differentiation patterns. Moret, B., Marhava, P., Aliaga Fandino, A. C., Hardtke, C. S., & ten Tusscher, K. H. W. Nature Communications, 11(1): 2965. June 2020. Number: 1 Publisher: Nature Publishing Group
Local auxin competition explains fragmented differentiation patterns [link]Paper   doi   link   bibtex   abstract  
Current status of the multinational Arabidopsis community. Parry, G., Provart, N. J., Brady, S. M., Uzilday, B., & Committee, T. M. A. S. Plant Direct, 4(7): e00248. 2020. _eprint: https://onlinelibrary.wiley.com/doi/pdf/10.1002/pld3.248
Current status of the multinational Arabidopsis community [link]Paper   doi   link   bibtex   abstract  
A metabolite roadmap of the wood‐forming tissue in Populus tremula. Abreu, I. N., Johansson, A. I., Sokołowska, K., Niittylä, T., Sundberg, B., Hvidsten, T. R., Street, N. R., & Moritz, T. New Phytologist, 228(5): 1559–1572. December 2020.
A metabolite roadmap of the wood‐forming tissue in Populus tremula [link]Paper   doi   link   bibtex  
Evidence for widespread selection in shaping the genomic landscape during speciation of Populus. Wang, J., Street, N. R., Park, E., Liu, J., & Ingvarsson, P. K. Molecular Ecology, 29(6): 1120–1136. March 2020.
Evidence for widespread selection in shaping the genomic landscape during speciation of Populus [link]Paper   doi   link   bibtex  
Leaf shape in Populus tremula is a complex, omnigenic trait. Mähler, N., Schiffthaler, B., Robinson, K. M., Terebieniec, B. K., Vučak, M., Mannapperuma, C., Bailey, M. E. S., Jansson, S., Hvidsten, T. R., & Street, N. R. Ecology and Evolution, 10(21): 11922–11940. November 2020.
Leaf shape in Populus tremula is a complex, omnigenic trait [link]Paper   doi   link   bibtex  
Inferring the Genomic Landscape of Recombination Rate Variation in European Aspen ( Populus tremula ). Apuli, R., Bernhardsson, C., Schiffthaler, B., Robinson, K. M, Jansson, S., Street, N. R, & Ingvarsson, P. K G3 Genes\textbarGenomes\textbarGenetics, 10(1): 299–309. January 2020.
Inferring the Genomic Landscape of Recombination Rate Variation in European Aspen ( Populus tremula ) [link]Paper   doi   link   bibtex   abstract  
Three-way Interactions between Plants, Microbes, and Arthropods (PMA): Impacts, Mechanisms, and Prospects for Sustainable Plant Protection. Pozo, M. J., Albrectsen, B. R., Bejarano, E., de la Pena, E., Herrero, S., Martinez-Medina, A., Pastor, V., Ravnskov, S., & Biere, A. The Plant Cell, 32(7): tpc.120.tt0720. July 2020.
Three-way Interactions between Plants, Microbes, and Arthropods (PMA): Impacts, Mechanisms, and Prospects for Sustainable Plant Protection [link]Paper   doi   link   bibtex   abstract  
Auxin. Raggi, S., Doyle, S. M., & Robert, S. In The Chemical Biology of Plant Biostimulants, pages 123–153. John Wiley & Sons, Ltd, 2020. Section: 5 _eprint: https://onlinelibrary.wiley.com/doi/pdf/10.1002/9781119357254.ch5
Auxin [link]Paper   doi   link   bibtex   abstract  
ETHYLENE RESPONSE FACTOR 115 integrates jasmonate and cytokinin signaling machineries to repress adventitious rooting in Arabidopsis. Lakehal, A., Dob, A., Rahneshan, Z., Novák, O., Escamez, S., Alallaq, S., Strnad, M., Tuominen, H., & Bellini, C. New Phytologist, 228(5): 1611–1626. 2020.
ETHYLENE RESPONSE FACTOR 115 integrates jasmonate and cytokinin signaling machineries to repress adventitious rooting in Arabidopsis [link]Paper   doi   link   bibtex   abstract  
Multiple Roles of Jasmonates in Shaping Rhizotaxis: Emerging Integrators. Lakehal, A., Ranjan, A., & Bellini, C. In Champion, A., & Laplaze, L., editor(s), Jasmonate in Plant Biology, volume 2085, pages 3–22. Springer US, New York, NY, 2020.
Multiple Roles of Jasmonates in Shaping Rhizotaxis: Emerging Integrators [link]Paper   link   bibtex  
Auxin: at the crossroads between chemistry and biology. Raggi, S., Doyle, S. M., & Robert, S. In The Chemical Biology of Plant Biostimulants, pages 123–153. John Wiley & Sons, Ltd, 2020.
Auxin: at the crossroads between chemistry and biology [link]Paper   link   bibtex   abstract  
Establishment of regenerative callus, cell suspension system, and molecular characterization of Taxus wallichiana Zucc. for the in vitro production of Taxol. Dhurva Prasad, G., Sudina, B., Janardan, L., Rajani, S., & María Rosario, G. Journal of Applied Pharmaceutical Science. June 2020.
Establishment of regenerative callus, cell suspension system, and molecular characterization of Taxus wallichiana Zucc. for the in vitro production of Taxol [link]Paper   doi   link   bibtex   abstract  
The RALF1-FERONIA interaction modulates endocytosis to mediate control of root growth in Arabidopsis. Yu, M., Li, R., Cui, Y., Chen, W., Li, B., Zhang, X., Bu, Y., Cao, Y., Xing, J., Jewaria, P. K., Li, X., Bhalerao, R. P., Yu, F., & Lin, J. Development,dev.189902. January 2020.
The RALF1-FERONIA interaction modulates endocytosis to mediate control of root growth in <i>Arabidopsis</i> [link]Paper   doi   link   bibtex   abstract  
The chromatin-modifying protein HUB2 is involved in the regulation of lignin composition in xylem vessels. Zhang, B., Sztojka, B., Seyfferth, C., Escamez, S., Miskolczi, P., Chantreau, M., Bakó, L., Delhomme, N., Gorzsás, A., Bhalerao, R. P., & Tuominen, H. Journal of Experimental Botany, 71(18): 5484–5494. September 2020.
The chromatin-modifying protein HUB2 is involved in the regulation of lignin composition in xylem vessels [link]Paper   doi   link   bibtex   abstract  
Conservation analysis of core cell cycle regulators and their transcriptional behavior during limb regeneration in Ambystoma mexicanum. Espinal-Centeno, A., Dipp-Álvarez, M., Saldaña, C., Bakó, L., & Cruz-Ramírez, A. Mechanisms of Development, 164: 103651. December 2020.
Conservation analysis of core cell cycle regulators and their transcriptional behavior during limb regeneration in Ambystoma mexicanum [link]Paper   doi   link   bibtex  
SCHENGEN receptor module drives localized ROS production and lignification in plant roots. Fujita, S., De Bellis, D., Edel, K. H, Köster, P., Andersen, T. G., Schmid-Siegert, E., Dénervaud Tendon, V., Pfister, A., Marhavý, P., Ursache, R., Doblas, V. G, Barberon, M., Daraspe, J., Creff, A., Ingram, G., Kudla, J., & Geldner, N. The EMBO Journal, 39(9): e103894. May 2020. Publisher: John Wiley & Sons, Ltd
SCHENGEN receptor module drives localized ROS production and lignification in plant roots [link]Paper   doi   link   bibtex   abstract  
More than protection: the function of TiO $_{\textrm{2}}$ interlayers in hematite functionalized Si photoanodes. Kawde, A., Annamalai, A., Sellstedt, A., Uhlig, J., Wågberg, T., Glatzel, P., & Messinger, J. Physical Chemistry Chemical Physics, 22(48): 28459–28467. 2020.
More than protection: the function of TiO $_{\textrm{2}}$ interlayers in hematite functionalized Si photoanodes [link]Paper   doi   link   bibtex   abstract  
Transcriptomic Analysis Reveals Salt Tolerance Mechanisms Present in Date-Plum Persimmon Rootstock (Diospyros lotus L.). Gil-Muñoz, F., Delhomme, N., Quiñones, A., Naval, M. d. M., Badenes, M. L., & García-Gil, M. R. Agronomy, 10(11): 1703. November 2020.
Transcriptomic Analysis Reveals Salt Tolerance Mechanisms Present in Date-Plum Persimmon Rootstock (Diospyros lotus L.) [link]Paper   doi   link   bibtex   abstract  
Candidatus Frankia nodulisporulans sp. nov., an Alnus glutinosa-infective Frankia species unable to grow in pure culture and able to sporulate in-planta. Herrera-Belaroussi, A., Normand, P., Pawlowski, K., Fernandez, M. P., Wibberg, D., Kalinowski, J., Brachmann, A., Berckx, F., Lee, N., Blom, J., Pozzi, A. C., Fournier, P., Bethencourt, L., Dubost, A., Abrouk, D., & Sellstedt, A. Systematic and Applied Microbiology, 43(6): 126134. November 2020.
Candidatus Frankia nodulisporulans sp. nov., an Alnus glutinosa-infective Frankia species unable to grow in pure culture and able to sporulate in-planta [link]Paper   doi   link   bibtex  
HY5 and phytochrome activity modulate shoot to root coordination during thermomorphogenesis. Gaillochet, C., Burko, Y., Platre, M. P., Zhang, L., Simura, J., Willige, B. C., Kumar, S. V., Ljung, K., Chory, J., & Busch, W. Development,dev.192625. January 2020.
HY5 and phytochrome activity modulate shoot to root coordination during thermomorphogenesis [link]Paper   doi   link   bibtex   abstract  
TERMINAL FLOWER1 Functions as a Mobile Transcriptional Cofactor in the Shoot Apical Meristem. Goretti, D., Silvestre, M., Collani, S., Langenecker, T., Méndez, C., Madueño, F., & Schmid, M. Plant Physiology, 182(4): 2081–2095. April 2020.
TERMINAL FLOWER1 Functions as a Mobile Transcriptional Cofactor in the Shoot Apical Meristem [link]Paper   doi   link   bibtex  
Spatial and competition models increase the progeny testing efficiency of Japanese larch. Dong, L., Xie, Y., Wu, H. X., & Sun, X. Canadian Journal of Forest Research, 50(12): 1373–1382. December 2020.
Spatial and competition models increase the progeny testing efficiency of Japanese larch [link]Paper   doi   link   bibtex   abstract  
Genetic improvement of sawn-board shape stability in Scots pine (Pinus sylvestris L.). Fundova, I., Hallingbäck, H. R., Jansson, G., & Wu, H. X. Industrial Crops and Products, 157: 112939. December 2020.
Genetic improvement of sawn-board shape stability in Scots pine (Pinus sylvestris L.) [link]Paper   doi   link   bibtex  
Low and High Nitrogen Deposition Rates in Northern Coniferous Forests Have Different Impacts on Aboveground Litter Production, Soil Respiration, and Soil Carbon Stocks. Forsmark, B., Nordin, A., Maaroufi, N. I., Lundmark, T., & Gundale, M. J. Ecosystems, 23(7): 1423–1436. November 2020.
Low and High Nitrogen Deposition Rates in Northern Coniferous Forests Have Different Impacts on Aboveground Litter Production, Soil Respiration, and Soil Carbon Stocks [link]Paper   doi   link   bibtex   abstract  
Cell Death in Cells Overlying Lateral Root Primordia Facilitates Organ Growth in Arabidopsis. Escamez, S., André, D., Sztojka, B., Bollhöner, B., Hall, H., Berthet, B., Voß, U., Lers, A., Maizel, A., Andersson, M., Bennett, M., & Tuominen, H. Current Biology, 30(3): 455–464.e7. February 2020.
Cell Death in Cells Overlying Lateral Root Primordia Facilitates Organ Growth in Arabidopsis [link]Paper   doi   link   bibtex  
Assessment of the manganese cluster’s oxidation state via photoactivation of photosystem II microcrystals. Cheah, M. H., Zhang, M., Shevela, D., Mamedov, F., Zouni, A., & Messinger, J. Proceedings of the National Academy of Sciences, 117(1): 141–145. January 2020.
Assessment of the manganese cluster’s oxidation state via photoactivation of photosystem II microcrystals [link]Paper   doi   link   bibtex   abstract  
Differentiation of two Maytenus species and their hybrid via untargeted metabolomics. Antunes, E. R. M., Duarte, R. S., Moritz, T., & Sawaya, A. C. H. F. Industrial Crops and Products, 158: 113014. December 2020.
Differentiation of two Maytenus species and their hybrid via untargeted metabolomics [link]Paper   doi   link   bibtex  
Direct energy transfer from photosystem II to photosystem I confers winter sustainability in Scots Pine. Bag, P., Chukhutsina, V., Zhang, Z., Paul, S., Ivanov, A. G., Shutova, T., Croce, R., Holzwarth, A. R., & Jansson, S. Nature Communications, 11(1): 6388. December 2020.
Direct energy transfer from photosystem II to photosystem I confers winter sustainability in Scots Pine [link]Paper   doi   link   bibtex   abstract  
The Spatio-Temporal Distribution of Cell Wall-Associated Glycoproteins During Wood Formation in Populus. Abedi, T., Castilleux, R., Nibbering, P., & Niittylä, T. Frontiers in Plant Science, 11: 611607. December 2020.
The Spatio-Temporal Distribution of Cell Wall-Associated Glycoproteins During Wood Formation in Populus [link]Paper   doi   link   bibtex   abstract  
Changes in lipid and carotenoid metabolism in Chlamydomonas reinhardtii during induction of CO2-concentrating mechanism: Cellular response to low CO2 stress. Abreu, I. N., Aksmann, A., Bajhaiya, A. K., Benlloch, R., Giordano, M., Pokora, W., Selstam, E., & Moritz, T. Algal Research, 52: 102099. December 2020.
Changes in lipid and carotenoid metabolism in Chlamydomonas reinhardtii during induction of CO2-concentrating mechanism: Cellular response to low CO2 stress [link]Paper   doi   link   bibtex  
Nuclear proteome analysis of Chlamydomonas with response to CO2 limitation. Arias, C., Obudulu, O., Zhao, X., Ansolia, P., Zhang, X., Paul, S., Bygdell, J., Pirmoradian, M., Zubarev, R. A., Samuelsson, G., Wingsle, G., & Bajhaiya, A. K. Algal Research, 46: 101765. March 2020.
Nuclear proteome analysis of Chlamydomonas with response to CO2 limitation [link]Paper   doi   link   bibtex  
Seed-Stored mRNAs that Are Specifically Associated to Monosomes Are Translationally Regulated during Germination1  [OPEN]. Bai, B., van der Horst, S., Cordewener, J. H., America, T. A., Hanson, J., & Bentsink, L. Plant Physiology, 182(1): 378–392. January 2020.
Seed-Stored mRNAs that Are Specifically Associated to Monosomes Are Translationally Regulated during Germination1  [OPEN] [link]Paper   doi   link   bibtex   abstract  
Metabolite Control of Translation by Conserved Peptide uORFs: The Ribosome as a Metabolite Multisensor. van der Horst, S., Filipovska, T., Hanson, J., & Smeekens, S. Plant Physiology, 182(1): 110–122. January 2020.
Metabolite Control of Translation by Conserved Peptide uORFs: The Ribosome as a Metabolite Multisensor [link]Paper   doi   link   bibtex  
Branching Regulator BRC1 Mediates Photoperiodic Control of Seasonal Growth in Hybrid Aspen. Maurya, J. P., Singh, R. K., Miskolczi, P. C., Prasad, A. N., Jonsson, K., Wu, F., & Bhalerao, R. P. Current Biology, 30(1): 122–126.e2. January 2020.
Branching Regulator BRC1 Mediates Photoperiodic Control of Seasonal Growth in Hybrid Aspen [link]Paper   doi   link   bibtex  
Native elongation transcript sequencing reveals temperature dependent dynamics of nascent RNAPII transcription in Arabidopsis. Kindgren, P., Ivanov, M., & Marquardt, S. Nucleic Acids Research, 48(5): 2332–2347. March 2020.
Native elongation transcript sequencing reveals temperature dependent dynamics of nascent RNAPII transcription in Arabidopsis [link]Paper   doi   link   bibtex   abstract  
The Mitogenome of Norway Spruce and a Reappraisal of Mitochondrial Recombination in Plants. Sullivan, A. R, Eldfjell, Y., Schiffthaler, B., Delhomme, N., Asp, T., Hebelstrup, K. H, Keech, O., Öberg, L., Møller, I. M., Arvestad, L., Street, N. R, & Wang, X. Genome Biology and Evolution, 12(1): 3586–3598. January 2020.
The Mitogenome of Norway Spruce and a Reappraisal of Mitochondrial Recombination in Plants [link]Paper   doi   link   bibtex   abstract  
Peptide encoding Populus CLV3/ESR‐RELATED 47 ( PttCLE47 ) promotes cambial development and secondary xylem formation in hybrid aspen. Kucukoglu, M., Chaabouni, S., Zheng, B., Mähönen, A. P., Helariutta, Y., & Nilsson, O. New Phytologist, 226(1): 75–85. April 2020.
Peptide encoding <i>Populus CLV3/ESR‐RELATED 47</i> ( <i>PttCLE47</i> ) promotes cambial development and secondary xylem formation in hybrid aspen [link]Paper   doi   link   bibtex  
Genotypic variation in Norway spruce correlates to fungal communities in vegetative buds. Elfstrand, M., Zhou, L., Baison, J., Olson, Å., Lundén, K., Karlsson, B., Wu, H. X., Stenlid, J., & García‐Gil, M. R. Molecular Ecology, 29(1): 199–213. January 2020.
Genotypic variation in Norway spruce correlates to fungal communities in vegetative buds [link]Paper   doi   link   bibtex  
PIRIN2 suppresses S‐type lignin accumulation in a noncell‐autonomous manner in Arabidopsis xylem elements. Zhang, B., Sztojka, B., Escamez, S., Vanholme, R., Hedenström, M., Wang, Y., Turumtay, H., Gorzsás, A., Boerjan, W., & Tuominen, H. New Phytologist, 225(5): 1923–1935. March 2020.
PIRIN2 suppresses S‐type lignin accumulation in a noncell‐autonomous manner in Arabidopsis xylem elements [link]Paper   doi   link   bibtex  
A global view of aspen: Conservation science for widespread keystone systems. Rogers, P. C., Pinno, B. D., Šebesta, J., Albrectsen, B. R., Li, G., Ivanova, N., Kusbach, A., Kuuluvainen, T., Landhäusser, S. M., Liu, H., Myking, T., Pulkkinen, P., Wen, Z., & Kulakowski, D. Global Ecology and Conservation, 21: e00828. March 2020.
A global view of aspen: Conservation science for widespread keystone systems [link]Paper   doi   link   bibtex  
Isolation and characterization of cellulose nanofibers from aspen wood using derivatizing and non-derivatizing pretreatments. Jonasson, S., Bünder, A., Niittylä, T., & Oksman, K. Cellulose, 27(1): 185–203. January 2020.
Isolation and characterization of cellulose nanofibers from aspen wood using derivatizing and non-derivatizing pretreatments [link]Paper   doi   link   bibtex   abstract  
Metabolic Profiling and Compound-Class Identification Reveal Alterations in Serum Triglyceride Levels in Mice Immunized with Human Vaccine Adjuvant Alum. Khoomrung, S., Nookaew, I., Sen, P., Olafsdottir, T. A., Persson, J., Moritz, T., Andersen, P., Harandi, A. M., & Nielsen, J. Journal of Proteome Research, 19(1): 269–278. January 2020.
Metabolic Profiling and Compound-Class Identification Reveal Alterations in Serum Triglyceride Levels in Mice Immunized with Human Vaccine Adjuvant Alum [link]Paper   doi   link   bibtex  
Optimization of nucleotide sugar supply for polysaccharide formation via thermodynamic buffering. Kleczkowski, L. A., & Igamberdiev, A. U. Biochemical Journal, 477(2): 341–356. January 2020.
Optimization of nucleotide sugar supply for polysaccharide formation via thermodynamic buffering [link]Paper   doi   link   bibtex   abstract  
ACAULIS5 Is Required for Cytokinin Accumulation and Function During Secondary Growth of Populus Trees. Milhinhos, A., Bollhöner, B., Blazquez, M. A., Novák, O., Miguel, C. M., & Tuominen, H. Frontiers in Plant Science, 11: 601858. November 2020.
ACAULIS5 Is Required for Cytokinin Accumulation and Function During Secondary Growth of Populus Trees [link]Paper   doi   link   bibtex  
Polar expedition: mechanisms for protein polar localization. Raggi, S., Demes, E., Liu, S., Verger, S., & Robert, S. Current Opinion in Plant Biology, 53: 134–140. February 2020.
Polar expedition: mechanisms for protein polar localization [link]Paper   doi   link   bibtex  
Demography and Natural Selection Have Shaped Genetic Variation in the Widely Distributed Conifer Norway Spruce (Picea abies). Wang, X., Bernhardsson, C., & Ingvarsson, P. K Genome Biology and Evolution, 12(2): 3803–3817. February 2020.
Demography and Natural Selection Have Shaped Genetic Variation in the Widely Distributed Conifer Norway Spruce (Picea abies) [link]Paper   doi   link   bibtex   abstract  
Two dominant boreal conifers use contrasting mechanisms to reactivate photosynthesis in the spring. Yang, Q., Blanco, N. E., Hermida-Carrera, C., Lehotai, N., Hurry, V., & Strand, Å. Nature Communications, 11(1): 128. December 2020.
Two dominant boreal conifers use contrasting mechanisms to reactivate photosynthesis in the spring [link]Paper   doi   link   bibtex   abstract  
A WOX/Auxin Biosynthesis Module Controls Growth to Shape Leaf Form. Zhang, Z., Runions, A., Mentink, R. A., Kierzkowski, D., Karady, M., Hashemi, B., Huijser, P., Strauss, S., Gan, X., Ljung, K., & Tsiantis, M. Current Biology, 30(24): 4857–4868.e6. December 2020.
A WOX/Auxin Biosynthesis Module Controls Growth to Shape Leaf Form [link]Paper   doi   link   bibtex  
Reaction Wood Anatomical Traits and Hormonal Profiles in Poplar Bent Stem and Root. De Zio, E., Montagnoli, A., Karady, M., Terzaghi, M., Sferra, G., Antoniadi, I., Scippa, G. S., Ljung, K., Chiatante, D., & Trupiano, D. Frontiers in Plant Science, 11: 590985. December 2020.
Reaction Wood Anatomical Traits and Hormonal Profiles in Poplar Bent Stem and Root [link]Paper   doi   link   bibtex   abstract  
A Genetic Screen to Identify New Molecular Players Involved in Photoprotection qH in Arabidopsis thaliana. Bru, P., Nanda, S., & Malnoë, A. Plants, 9(11): 1565. November 2020.
A Genetic Screen to Identify New Molecular Players Involved in Photoprotection qH in Arabidopsis thaliana [link]Paper   doi   link   bibtex   abstract  
Differences in growth-economics of fast vs. slow growing grass species in response to temperature and nitrogen limitation individually, and in combination. Colesie, C., Stangl, Z. R., & Hurry, V. BMC Ecology, 20(1): 63. December 2020.
Differences in growth-economics of fast vs. slow growing grass species in response to temperature and nitrogen limitation individually, and in combination [link]Paper   doi   link   bibtex   abstract  
Evaluation of the efficiency of genomic versus pedigree predictions for growth and wood quality traits in Scots pine. Calleja-Rodriguez, A., Pan, J., Funda, T., Chen, Z., Baison, J., Isik, F., Abrahamsson, S., & Wu, H. X. BMC Genomics, 21(1): 796. December 2020.
Evaluation of the efficiency of genomic versus pedigree predictions for growth and wood quality traits in Scots pine [link]Paper   doi   link   bibtex   abstract  
A GDSL lipase-like from Ipomoea batatas catalyzes efficient production of 3,5-diCQA when expressed in Pichia pastoris. Miguel, S., Legrand, G., Duriot, L., Delporte, M., Menin, B., Michel, C., Olry, A., Chataigné, G., Salwinski, A., Bygdell, J., Vercaigne, D., Wingsle, G., Hilbert, J. L., Bourgaud, F., Hehn, A., & Gagneul, D. Communications Biology, 3(1): 673. December 2020.
A GDSL lipase-like from Ipomoea batatas catalyzes efficient production of 3,5-diCQA when expressed in Pichia pastoris [link]Paper   doi   link   bibtex   abstract  
Bioethanol production from four abundant Indian agricultural wastes. Harinikumar, K. M., Kudahettige-Nilsson, R. L., Devadas, A., Holmgren, M., & Sellstedt, A. Biofuels, 11(5): 607–613. July 2020.
Bioethanol production from four abundant Indian agricultural wastes [link]Paper   doi   link   bibtex  
Cryo-XPS analysis reveals surface composition of microalgae. Shchukarev, A., Gojkovic, Z., Funk, C., & Ramstedt, M. Applied Surface Science, 526: 146538. October 2020.
Cryo-XPS analysis reveals surface composition of microalgae [link]Paper   doi   link   bibtex  
Evaluation of antimicrobial, antioxidant and cytotoxic properties of bioactive compounds produced from endophytic fungi of Himalayan yew (Taxus wallichiana) in Nepal. Gauchan, D. P., Kandel, P., Tuladhar, A., Acharya, A., Kadel, U., Baral, A., Shahi, A. B., & García-Gil, M. R. F1000Research, 9: 379. October 2020.
Evaluation of antimicrobial, antioxidant and cytotoxic properties of bioactive compounds produced from endophytic fungi of Himalayan yew (Taxus wallichiana) in Nepal [link]Paper   doi   link   bibtex   abstract  
Genetic control of tracheid properties in Norway spruce wood. Baison, J., Zhou, L., Forsberg, N., Mörling, T., Grahn, T., Olsson, L., Karlsson, B., Wu, H. X., Mellerowicz, E. J., Lundqvist, S., & García-Gil, M. R. Scientific Reports, 10(1): 18089. December 2020.
Genetic control of tracheid properties in Norway spruce wood [link]Paper   doi   link   bibtex   abstract  
Chromosome-level genome assembly of a parent species of widely cultivated azaleas. Yang, F., Nie, S., Liu, H., Shi, T., Tian, X., Zhou, S., Bao, Y., Jia, K., Guo, J., Zhao, W., An, N., Zhang, R., Yun, Q., Wang, X., Mannapperuma, C., Porth, I., El-Kassaby, Y. A., Street, N. R., Wang, X., Van de Peer, Y., & Mao, J. Nature Communications, 11(1): 5269. December 2020.
Chromosome-level genome assembly of a parent species of widely cultivated azaleas [link]Paper   doi   link   bibtex   abstract  
Red Light Controls Adventitious Root Regeneration by Modulating Hormone Homeostasis in Picea abies Seedlings. Alallaq, S., Ranjan, A., Brunoni, F., Novák, O., Lakehal, A., & Bellini, C. Frontiers in Plant Science, 11: 586140. September 2020.
Red Light Controls Adventitious Root Regeneration by Modulating Hormone Homeostasis in Picea abies Seedlings [link]Paper   doi   link   bibtex  
DNA metabarcoding reveals microbial community dynamics in a microalgae-based municipal wastewater treatment open photobioreactor. Ferro, L., Hu, Y. O., Gentili, F. G., Andersson, A. F., & Funk, C. Algal Research, 51: 102043. October 2020.
DNA metabarcoding reveals microbial community dynamics in a microalgae-based municipal wastewater treatment open photobioreactor [link]Paper   doi   link   bibtex  
Siberian larch (Larix sibirica Ledeb.) mitochondrial genome assembled using both short and long nucleotide sequence reads is currently the largest known mitogenome. Putintseva, Y. A., Bondar, E. I., Simonov, E. P., Sharov, V. V., Oreshkova, N. V., Kuzmin, D. A., Konstantinov, Y. M., Shmakov, V. N., Belkov, V. I., Sadovsky, M. G., Keech, O., & Krutovsky, K. V. BMC Genomics, 21(1): 654. December 2020.
Siberian larch (Larix sibirica Ledeb.) mitochondrial genome assembled using both short and long nucleotide sequence reads is currently the largest known mitogenome [link]Paper   doi   link   bibtex   abstract  
Integration of molecular profiles in a longitudinal wellness profiling cohort. Tebani, A., Gummesson, A., Zhong, W., Koistinen, I. S., Lakshmikanth, T., Olsson, L. M., Boulund, F., Neiman, M., Stenlund, H., Hellström, C., Karlsson, M. J., Arif, M., Dodig-Crnković, T., Mardinoglu, A., Lee, S., Zhang, C., Chen, Y., Olin, A., Mikes, J., Danielsson, H., von Feilitzen, K., Jansson, P., Angerås, O., Huss, M., Kjellqvist, S., Odeberg, J., Edfors, F., Tremaroli, V., Forsström, B., Schwenk, J. M., Nilsson, P., Moritz, T., Bäckhed, F., Engstrand, L., Brodin, P., Bergström, G., Uhlen, M., & Fagerberg, L. Nature Communications, 11(1): 4487. December 2020.
Integration of molecular profiles in a longitudinal wellness profiling cohort [link]Paper   doi   link   bibtex   abstract  
Cytokinin fluoroprobe reveals multiple sites of cytokinin perception at plasma membrane and endoplasmic reticulum. Kubiasová, K., Montesinos, J. C., Šamajová, O., Nisler, J., Mik, V., Semerádová, H., Plíhalová, L., Novák, O., Marhavý, P., Cavallari, N., Zalabák, D., Berka, K., Doležal, K., Galuszka, P., Šamaj, J., Strnad, M., Benková, E., Plíhal, O., & Spíchal, L. Nature Communications, 11(1): 4285. December 2020.
Cytokinin fluoroprobe reveals multiple sites of cytokinin perception at plasma membrane and endoplasmic reticulum [link]Paper   doi   link   bibtex  
Cell-surface receptors enable perception of extracellular cytokinins. Antoniadi, I., Novák, O., Gelová, Z., Johnson, A., Plíhal, O., Simerský, R., Mik, V., Vain, T., Mateo-Bonmatí, E., Karady, M., Pernisová, M., Plačková, L., Opassathian, K., Hejátko, J., Robert, S., Friml, J., Doležal, K., Ljung, K., & Turnbull, C. Nature Communications, 11(1): 4284. December 2020.
Cell-surface receptors enable perception of extracellular cytokinins [link]Paper   doi   link   bibtex  
Effects of whole‐tree harvesting at thinning and subsequent compensatory nutrient additions on carbon sequestration and soil acidification in a boreal forest. Lim, H., Olsson, B. A., Lundmark, T., Dahl, J., & Nordin, A. GCB Bioenergy, 12(11): 992–1001. November 2020.
Effects of whole‐tree harvesting at thinning and subsequent compensatory nutrient additions on carbon sequestration and soil acidification in a boreal forest [link]Paper   doi   link   bibtex  
Carbon benefits from Forest Transitions promoting biomass expansions and thickening. Kauppi, P. E., Ciais, P., Högberg, P., Nordin, A., Lappi, J., Lundmark, T., & Wernick, I. K. Global Change Biology, 26(10): 5365–5370. October 2020.
Carbon benefits from Forest Transitions promoting biomass expansions and thickening [link]Paper   doi   link   bibtex  
Silver nanoparticle pollutants activate oxidative stress responses and rosmarinic acid accumulation in sage. Moazzami Farida, S. H., Karamian, R., & Albrectsen, B. R Physiologia Plantarum, 170(3): 415–432. November 2020.
Silver nanoparticle pollutants activate oxidative stress responses and rosmarinic acid accumulation in sage [link]Paper   doi   link   bibtex  
HEARTBREAK Controls Post-translational Modification of INDEHISCENT to Regulate Fruit Morphology in Capsella. Dong, Y., Majda, M., Šimura, J., Horvath, R., Srivastava, A. K., Łangowski, Ł., Eldridge, T., Stacey, N., Slotte, T., Sadanandom, A., Ljung, K., Smith, R. S., & Østergaard, L. Current Biology, 30(19): 3880–3888.e5. October 2020.
HEARTBREAK Controls Post-translational Modification of INDEHISCENT to Regulate Fruit Morphology in Capsella [link]Paper   doi   link   bibtex  
The trehalose 6‐phosphate pathway impacts vegetative phase change in Arabidopsis thaliana. Ponnu, J., Schlereth, A., Zacharaki, V., Działo, M. A., Abel, C., Feil, R., Schmid, M., & Wahl, V. The Plant Journal, 104(3): 768–780. November 2020.
The trehalose 6‐phosphate pathway impacts vegetative phase change in <i>Arabidopsis thaliana</i> [link]Paper   doi   link   bibtex  
Hunting monolignol transporters: membrane proteomics and biochemical transport assays with membrane vesicles of Norway spruce. Väisänen, E., Takahashi, J., Obudulu, O., Bygdell, J., Karhunen, P., Blokhina, O., Laitinen, T., Teeri, T. H, Wingsle, G., Fagerstedt, K. V, & Kärkönen, A. Journal of Experimental Botany, 71(20): 6379–6395. October 2020.
Hunting monolignol transporters: membrane proteomics and biochemical transport assays with membrane vesicles of Norway spruce [link]Paper   doi   link   bibtex   abstract  
Genetic improvement of the chemical composition of Scots pine ( Pinus sylvestris L.) juvenile wood for bioenergy production. Funda, T., Fundová, I., Fries, A., & Wu, H. X. GCB Bioenergy, 12(10): 848–863. October 2020.
Genetic improvement of the chemical composition of Scots pine ( <i>Pinus sylvestris</i> L.) juvenile wood for bioenergy production [link]Paper   doi   link   bibtex  
Specific thylakoid protein phosphorylations are prerequisites for overwintering of Norway spruce ( Picea abies ) photosynthesis. Grebe, S., Trotta, A., Bajwa, A. A., Mancini, I., Bag, P., Jansson, S., Tikkanen, M., & Aro, E. Proceedings of the National Academy of Sciences, 117(30): 17499–17509. July 2020.
Specific thylakoid protein phosphorylations are prerequisites for overwintering of Norway spruce ( <i>Picea abies</i> ) photosynthesis [link]Paper   doi   link   bibtex   abstract  
Expression of Cell Wall–Modifying Enzymes in Aspen for Improved Lignocellulose Processing. Derba-Maceluch, M., & Mellerowicz, E. J. In Popper, Z. A., editor(s), The Plant Cell Wall, volume 2149, pages 145–164. Springer New York, New York, NY, 2020. Series Title: Methods in Molecular Biology
Expression of Cell Wall–Modifying Enzymes in Aspen for Improved Lignocellulose Processing [link]Paper   doi   link   bibtex  
Fluctuating auxin response gradients determine pavement cell-shape acquisition. Grones, P., Majda, M., Doyle, S. M., Van Damme, D., & Robert, S. Proceedings of the National Academy of Sciences, 117(27): 16027–16034. July 2020.
Fluctuating auxin response gradients determine pavement cell-shape acquisition [link]Paper   doi   link   bibtex   abstract  
Lipid accumulation controls the balance between surface connection and scission of caveolae. Hubert, M., Larsson, E., Vegesna, N. V. G., Ahnlund, M., Johansson, A. I, Moodie, L. W., & Lundmark, R. eLife, 9: e55038. May 2020.
Lipid accumulation controls the balance between surface connection and scission of caveolae [link]Paper   doi   link   bibtex   abstract  
In planta study of photosynthesis and photorespiration using NADPH and NADH/NAD+ fluorescent protein sensors. Lim, S., Voon, C. P., Guan, X., Yang, Y., Gardeström, P., & Lim, B. L. Nature Communications, 11(1): 3238. December 2020.
In planta study of photosynthesis and photorespiration using NADPH and NADH/NAD+ fluorescent protein sensors [link]Paper   doi   link   bibtex  
Nyctinastic thallus movement in the liverwort Marchantia polymorpha is regulated by a circadian clock. Lagercrantz, U., Billhardt, A., Rousku, S. N., Ljung, K., & Eklund, D. M. Scientific Reports, 10(1): 8658. December 2020.
Nyctinastic thallus movement in the liverwort Marchantia polymorpha is regulated by a circadian clock [link]Paper   doi   link   bibtex   abstract  
CELLULOSE SYNTHASE INTERACTING 1 is required for wood mechanics and leaf morphology in aspen. Bünder, A., Sundman, O., Mahboubi, A., Persson, S., Mansfield, S. D., Rüggeberg, M., & Niittylä, T. The Plant Journal, 103(5): 1858–1868. August 2020.
CELLULOSE SYNTHASE INTERACTING 1 is required for wood mechanics and leaf morphology in aspen [link]Paper   doi   link   bibtex  
Auxin export from proximal fruits drives arrest in temporally competent inflorescences. Ware, A., Walker, C. H., Šimura, J., González-Suárez, P., Ljung, K., Bishopp, A., Wilson, Z. A., & Bennett, T. Nature Plants, 6(6): 699–707. June 2020.
Auxin export from proximal fruits drives arrest in temporally competent inflorescences [link]Paper   doi   link   bibtex  
A single gene underlies the dynamic evolution of poplar sex determination. Müller, N. A., Kersten, B., Leite Montalvão, A. P., Mähler, N., Bernhardsson, C., Bräutigam, K., Carracedo Lorenzo, Z., Hoenicka, H., Kumar, V., Mader, M., Pakull, B., Robinson, K. M., Sabatti, M., Vettori, C., Ingvarsson, P. K., Cronk, Q., Street, N. R., & Fladung, M. Nature Plants, 6(6): 630–637. June 2020.
A single gene underlies the dynamic evolution of poplar sex determination [link]Paper   doi   link   bibtex  
A gibberellin methyltransferase modulates the timing of floral transition at the Arabidopsis shoot meristem. Lee, J. E., Goretti, D., Neumann, M., Schmid, M., & You, Y. Physiologia Plantarum, 170(4): 474–487. December 2020.
A gibberellin methyltransferase modulates the timing of floral transition at the Arabidopsis shoot meristem [link]Paper   doi   link   bibtex  
Framing woodland key habitats in the Swedish media – how has the framing changed over time?. Hallberg-Sramek, I., Bjärstig, T., & Nordin, A. Scandinavian Journal of Forest Research, 35(3-4): 198–209. May 2020.
Framing woodland key habitats in the Swedish media – how has the framing changed over time? [link]Paper   doi   link   bibtex  
Centralization Within Sub-Experiments Enhances the Biological Relevance of Gene Co-expression Networks: A Plant Mitochondrial Case Study. Law, S. R., Kellgren, T. G., Björk, R., Ryden, P., & Keech, O. Frontiers in Plant Science, 11: 524. June 2020.
Centralization Within Sub-Experiments Enhances the Biological Relevance of Gene Co-expression Networks: A Plant Mitochondrial Case Study [link]Paper   doi   link   bibtex  
Golgi-localized exo-β1,3-galactosidases involved in cell expansion and root growth in Arabidopsis. Nibbering, P., Petersen, B. L., Motawia, M. S., Jørgensen, B., Ulvskov, P., & Niittylä, T. Journal of Biological Chemistry, 295(31): 10581–10592. July 2020.
Golgi-localized exo-β1,3-galactosidases involved in cell expansion and root growth in Arabidopsis [link]Paper   doi   link   bibtex  
Cryogenic X-ray photoelectron spectroscopy determines surface composition of algal cells and gives insights into their spontaneous sedimentation. Gojkovic, Z., Shchukarev, A., Ramstedt, M., & Funk, C. Algal Research, 47: 101836. May 2020.
Cryogenic X-ray photoelectron spectroscopy determines surface composition of algal cells and gives insights into their spontaneous sedimentation [link]Paper   doi   link   bibtex  
A genetic framework for regulation and seasonal adaptation of shoot architecture in hybrid aspen. Maurya, J. P., Miskolczi, P. C., Mishra, S., Singh, R. K., & Bhalerao, R. P. Proceedings of the National Academy of Sciences, 117(21): 11523–11530. May 2020.
A genetic framework for regulation and seasonal adaptation of shoot architecture in hybrid aspen [link]Paper   doi   link   bibtex   abstract  
Modeling biomass production during progressive nitrogen starvation by North Swedish green microalgae. Gojkovic, Z., Lu, Y., Ferro, L., Toffolo, A., & Funk, C. Algal Research, 47: 101835. May 2020.
Modeling biomass production during progressive nitrogen starvation by North Swedish green microalgae [link]Paper   doi   link   bibtex  
Cell Wall Acetylation in Hybrid Aspen Affects Field Performance, Foliar Phenolic Composition and Resistance to Biological Stress Factors in a Construct-Dependent Fashion. Derba-Maceluch, M., Amini, F., Donev, E. N., Pawar, P. M., Michaud, L., Johansson, U., Albrectsen, B. R., & Mellerowicz, E. J. Frontiers in Plant Science, 11: 651. May 2020.
Cell Wall Acetylation in Hybrid Aspen Affects Field Performance, Foliar Phenolic Composition and Resistance to Biological Stress Factors in a Construct-Dependent Fashion [link]Paper   doi   link   bibtex  
Screening Suitability of Northern Hemisphere Algal Strains for Heterotrophic Cultivation and Fatty Acid Methyl Ester Production. Nzayisenga, J. C., Niemi, C., Ferro, L., Gorzsas, A., Gentili, F. G., Funk, C., & Sellstedt, A. Molecules, 25(9): 2107. April 2020.
Screening Suitability of Northern Hemisphere Algal Strains for Heterotrophic Cultivation and Fatty Acid Methyl Ester Production [link]Paper   doi   link   bibtex   abstract  
Classification and Nomenclature of Metacaspases and Paracaspases: No More Confusion with Caspases. Minina, E. A., Staal, J., Alvarez, V. E., Berges, J. A., Berman-Frank, I., Beyaert, R., Bidle, K. D., Bornancin, F., Casanova, M., Cazzulo, J. J., Choi, C. J., Coll, N. S., Dixit, V. M., Dolinar, M., Fasel, N., Funk, C., Gallois, P., Gevaert, K., Gutierrez-Beltran, E., Hailfinger, S., Klemenčič, M., Koonin, E. V., Krappmann, D., Linusson, A., Machado, M. F., Madeo, F., Megeney, L. A., Moschou, P. N., Mottram, J. C., Nyström, T., Osiewacz, H. D., Overall, C. M., Pandey, K. C., Ruland, J., Salvesen, G. S., Shi, Y., Smertenko, A., Stael, S., Ståhlberg, J., Suárez, M. F., Thome, M., Tuominen, H., Van Breusegem, F., van der Hoorn, R. A., Vardi, A., Zhivotovsky, B., Lam, E., & Bozhkov, P. V. Molecular Cell, 77(5): 927–929. March 2020.
Classification and Nomenclature of Metacaspases and Paracaspases: No More Confusion with Caspases [link]Paper   doi   link   bibtex  
Emerging from the darkness: interplay between light and plastid signaling during chloroplast biogenesis. Hernández‐Verdeja, T., Vuorijoki, L., & Strand, Å. Physiologia Plantarum, 169(3): 397–406. July 2020.
Emerging from the darkness: interplay between light and plastid signaling during chloroplast biogenesis [link]Paper   doi   link   bibtex  
Microtubule Response to Tensile Stress Is Curbed by NEK6 to Buffer Growth Variation in the Arabidopsis Hypocotyl. Takatani, S., Verger, S., Okamoto, T., Takahashi, T., Hamant, O., & Motose, H. Current Biology, 30(8): 1491–1503.e2. April 2020.
Microtubule Response to Tensile Stress Is Curbed by NEK6 to Buffer Growth Variation in the Arabidopsis Hypocotyl [link]Paper   doi   link   bibtex  
The CEP5 Peptide Promotes Abiotic Stress Tolerance, As Revealed by Quantitative Proteomics, and Attenuates the AUX/IAA Equilibrium in Arabidopsis. Smith, S., Zhu, S., Joos, L., Roberts, I., Nikonorova, N., Vu, L. D., Stes, E., Cho, H., Larrieu, A., Xuan, W., Goodall, B., van de Cotte, B., Waite, J. M., Rigal, A., Ramans Harborough, S., Persiau, G., Vanneste, S., Kirschner, G. K., Vandermarliere, E., Martens, L., Stahl, Y., Audenaert, D., Friml, J., Felix, G., Simon, R., Bennett, M. J., Bishopp, A., De Jaeger, G., Ljung, K., Kepinski, S., Robert, S., Nemhauser, J., Hwang, I., Gevaert, K., Beeckman, T., & De Smet, I. Molecular & Cellular Proteomics, 19(8): 1248–1262. August 2020.
The CEP5 Peptide Promotes Abiotic Stress Tolerance, As Revealed by Quantitative Proteomics, and Attenuates the AUX/IAA Equilibrium in Arabidopsis [link]Paper   doi   link   bibtex  
SYNERGISTIC ON AUXIN AND CYTOKININ 1 positively regulates growth and attenuates soil pathogen resistance. Hurný, A., Cuesta, C., Cavallari, N., Ötvös, K., Duclercq, J., Dokládal, L., Montesinos, J. C., Gallemí, M., Semerádová, H., Rauter, T., Stenzel, I., Persiau, G., Benade, F., Bhalearo, R., Sýkorová, E., Gorzsás, A., Sechet, J., Mouille, G., Heilmann, I., De Jaeger, G., Ludwig-Müller, J., & Benková, E. Nature Communications, 11(1): 2170. December 2020.
SYNERGISTIC ON AUXIN AND CYTOKININ 1 positively regulates growth and attenuates soil pathogen resistance [link]Paper   doi   link   bibtex   abstract  
Effect of number of annual rings and tree ages on genomic predictive ability for solid wood properties of Norway spruce. Zhou, L., Chen, Z., Olsson, L., Grahn, T., Karlsson, B., Wu, H. X., Lundqvist, S., & García-Gil, M. R. BMC Genomics, 21(1): 323. December 2020.
Effect of number of annual rings and tree ages on genomic predictive ability for solid wood properties of Norway spruce [link]Paper   doi   link   bibtex   abstract  
Hybrid Aspen Expressing a Carbohydrate Esterase Family 5 Acetyl Xylan Esterase Under Control of a Wood-Specific Promoter Shows Improved Saccharification. Wang, Z., Pawar, P. M., Derba-Maceluch, M., Hedenström, M., Chong, S., Tenkanen, M., Jönsson, L. J., & Mellerowicz, E. J. Frontiers in Plant Science, 11: 380. April 2020.
Hybrid Aspen Expressing a Carbohydrate Esterase Family 5 Acetyl Xylan Esterase Under Control of a Wood-Specific Promoter Shows Improved Saccharification [link]Paper   doi   link   bibtex  
Association genetics identifies a specifically regulated Norway spruce laccase gene, \textlessspan style="font-variant:small-caps;"\textgreater PaLAC5 \textless/span\textgreater , linked to Heterobasidion parviporum resistance. Elfstrand, M., Baison, J., Lundén, K., Zhou, L., Vos, I., Capador, H. D., Åslund, M. S., Chen, Z., Chaudhary, R., Olson, Å., Wu, H. X., Karlsson, B., Stenlid, J., & García‐Gil, M. R. Plant, Cell & Environment, 43(7): 1779–1791. July 2020.
Association genetics identifies a specifically regulated Norway spruce laccase gene, \textlessspan style="font-variant:small-caps;"\textgreater <i>PaLAC5</i> \textless/span\textgreater , linked to <i>Heterobasidion parviporum</i> resistance [link]Paper   doi   link   bibtex  
Interplay between Cell Wall and Auxin Mediates the Control of Differential Cell Elongation during Apical Hook Development. Aryal, B., Jonsson, K., Baral, A., Sancho-Andres, G., Routier- Kierzkowska, A., Kierzkowski, D., & Bhalerao, R. P. Current Biology, 30(9): 1733–1739.e3. May 2020.
Interplay between Cell Wall and Auxin Mediates the Control of Differential Cell Elongation during Apical Hook Development [link]Paper   doi   link   bibtex  
Cellular and Genetic Regulation of Coniferaldehyde Incorporation in Lignin of Herbaceous and Woody Plants by Quantitative Wiesner Staining. Blaschek, L., Champagne, A., Dimotakis, C., Nuoendagula, Decou, R., Hishiyama, S., Kratzer, S., Kajita, S., & Pesquet, E. Frontiers in Plant Science, 11: 109. March 2020.
Cellular and Genetic Regulation of Coniferaldehyde Incorporation in Lignin of Herbaceous and Woody Plants by Quantitative Wiesner Staining [link]Paper   doi   link   bibtex  
Fluorescent protein expression in the ectomycorrhizal fungus Laccaria bicolor: a plasmid toolkit for easy use of fluorescent markers in basidiomycetes. Kemppainen, M., Chowdhury, J., Lundberg-Felten, J., & Pardo, A. Current Genetics, 66(4): 791–811. August 2020.
Fluorescent protein expression in the ectomycorrhizal fungus Laccaria bicolor: a plasmid toolkit for easy use of fluorescent markers in basidiomycetes [link]Paper   doi   link   bibtex  
Policy goals and instruments for achieving a desirable future forest: Experiences from backcasting with stakeholders in Sweden. Sandström, C., Kanyama, A. C., Räty, R., Sonnek, K. M., Nordström, E., Mossing, A., & Nordin, A. Forest Policy and Economics, 111: 102051. February 2020.
Policy goals and instruments for achieving a desirable future forest: Experiences from backcasting with stakeholders in Sweden [link]Paper   doi   link   bibtex  
Genetic Improvement of Sawn-Board Stiffness and Strength in Scots Pine (Pinus sylvestris L.). Fundova, I., Hallingbäck, H. R., Jansson, G., & Wu, H. X. Sensors, 20(4): 1129. February 2020.
Genetic Improvement of Sawn-Board Stiffness and Strength in Scots Pine (Pinus sylvestris L.) [link]Paper   doi   link   bibtex   abstract  
Organismal benefits of transcription speed control at gene boundaries. Leng, X., Ivanov, M., Kindgren, P., Malik, I., Thieffry, A., Brodersen, P., Sandelin, A., Kaplan, C. D, & Marquardt, S. EMBO reports, 21(4). April 2020.
Organismal benefits of transcription speed control at gene boundaries [link]Paper   doi   link   bibtex  
Effects of light intensity on growth and lipid production in microalgae grown in wastewater. Nzayisenga, J. C., Farge, X., Groll, S. L., & Sellstedt, A. Biotechnology for Biofuels, 13(1): 4. December 2020.
Effects of light intensity on growth and lipid production in microalgae grown in wastewater [link]Paper   doi   link   bibtex   abstract  
Specific functions for Mediator complex subunits from different modules in the transcriptional response of Arabidopsis thaliana to abiotic stress. Crawford, T., Karamat, F., Lehotai, N., Rentoft, M., Blomberg, J., Strand, Å., & Björklund, S. Scientific Reports, 10(1): 5073. December 2020.
Specific functions for Mediator complex subunits from different modules in the transcriptional response of Arabidopsis thaliana to abiotic stress [link]Paper   doi   link   bibtex   abstract  
Predicting the chemical composition of juvenile and mature woods in Scots pine (Pinus sylvestris L.) using FTIR spectroscopy. Funda, T., Fundova, I., Gorzsás, A., Fries, A., & Wu, H. X. Wood Science and Technology, 54(2): 289–311. March 2020.
Predicting the chemical composition of juvenile and mature woods in Scots pine (Pinus sylvestris L.) using FTIR spectroscopy [link]Paper   doi   link   bibtex   abstract  
Advantage of clonal deployment in Norway spruce (Picea abies (L.) H. Karst). Chen, Z., Hai, H. N. T., Helmersson, A., Liziniewicz, M., Hallingbäck, H. R., Fries, A., Berlin, M., & Wu, H. X. Annals of Forest Science, 77(1): 14. March 2020.
Advantage of clonal deployment in Norway spruce (Picea abies (L.) H. Karst) [link]Paper   doi   link   bibtex   abstract  
Impacts of tree species identity and species mixing on ecosystem carbon and nitrogen stocks in a boreal forest. Blaško, R., Forsmark, B., Gundale, M. J., Lundmark, T., & Nordin, A. Forest Ecology and Management, 458: 117783. February 2020.
Impacts of tree species identity and species mixing on ecosystem carbon and nitrogen stocks in a boreal forest [link]Paper   doi   link   bibtex  
Tissue‐specific isolation of Arabidopsis/plant mitochondria – IMTACT (isolation of mitochondria tagged in specific cell types). Boussardon, C., Przybyla‐Toscano, J., Carrie, C., & Keech, O. The Plant Journal, 103(1): 459–473. July 2020.
Tissue‐specific isolation of Arabidopsis/plant mitochondria – IMTACT (isolation of mitochondria tagged in specific cell types) [link]Paper   doi   link   bibtex  
Vernalization shapes shoot architecture and ensures the maintenance of dormant buds in the perennial Arabis alpina. Vayssières, A., Mishra, P., Roggen, A., Neumann, U., Ljung, K., & Albani, M. C. New Phytologist, 227(1): 99–115. July 2020.
Vernalization shapes shoot architecture and ensures the maintenance of dormant buds in the perennial <i>Arabis alpina</i> [link]Paper   doi   link   bibtex  
Arabidopsis XTH4 and XTH9 Contribute to Wood Cell Expansion and Secondary Wall Formation. Kushwah, S., Banasiak, A., Nishikubo, N., Derba-Maceluch, M., Majda, M., Endo, S., Kumar, V., Gomez, L., Gorzsas, A., McQueen-Mason, S., Braam, J., Sundberg, B., & Mellerowicz, E. J. Plant Physiology, 182(4): 1946–1965. April 2020.
Arabidopsis <i>XTH4</i> and <i>XTH9</i> Contribute to Wood Cell Expansion and Secondary Wall Formation [link]Paper   doi   link   bibtex  
Conifers exhibit a characteristic inactivation of auxin to maintain tissue homeostasis. Brunoni, F., Collani, S., Casanova‐Sáez, R., Šimura, J., Karady, M., Schmid, M., Ljung, K., & Bellini, C. New Phytologist, 226(6): 1753–1765. June 2020.
Conifers exhibit a characteristic inactivation of auxin to maintain tissue homeostasis [link]Paper   doi   link   bibtex  
Co-incidence of Damage and Microbial Patterns Controls Localized Immune Responses in Roots. Zhou, F., Emonet, A., Dénervaud Tendon, V., Marhavy, P., Wu, D., Lahaye, T., & Geldner, N. Cell, 180(3): 440–453.e18. February 2020.
Co-incidence of Damage and Microbial Patterns Controls Localized Immune Responses in Roots [link]Paper   doi   link   bibtex  
Natural Variation in Adventitious Rooting in the Alpine Perennial Arabis alpina. Mishra, P., Roggen, A., Ljung, K., & Albani, M. C. Plants, 9(2): 184. February 2020.
Natural Variation in Adventitious Rooting in the Alpine Perennial Arabis alpina [link]Paper   doi   link   bibtex   abstract  
ELIMÄKI Locus Is Required for Vertical Proprioceptive Response in Birch Trees. Alonso-Serra, J., Shi, X., Peaucelle, A., Rastas, P., Bourdon, M., Immanen, J., Takahashi, J., Koivula, H., Eswaran, G., Muranen, S., Help, H., Smolander, O., Su, C., Safronov, O., Gerber, L., Salojärvi, J., Hagqvist, R., Mähönen, A. P., Helariutta, Y., & Nieminen, K. Current Biology, 30(4): 589–599.e5. February 2020.
ELIMÄKI Locus Is Required for Vertical Proprioceptive Response in Birch Trees [link]Paper   doi   link   bibtex  
Genome-Wide Identification of Populus Malectin/Malectin-Like Domain-Containing Proteins and Expression Analyses Reveal Novel Candidates for Signaling and Regulation of Wood Development. Kumar, V., Donev, E. N., Barbut, F. R., Kushwah, S., Mannapperuma, C., Urbancsok, J., & Mellerowicz, E. J. Frontiers in Plant Science, 11: 588846. December 2020.
Genome-Wide Identification of Populus Malectin/Malectin-Like Domain-Containing Proteins and Expression Analyses Reveal Novel Candidates for Signaling and Regulation of Wood Development [link]Paper   doi   link   bibtex   abstract