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de Morais Oliveira JP, Silva AJD, Catrinck MN, Clarindo WR. Embryonic abnormalities and genotoxicity induced by 2,4-dichlorophenoxyacetic acid during indirect somatic embryogenesis in Coffea. Sci Rep 2023; 13:9689. [PMID: 37322165 PMCID: PMC10272143 DOI: 10.1038/s41598-023-36879-7] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 09/07/2022] [Accepted: 06/12/2023] [Indexed: 06/17/2023] Open
Abstract
Indirect somatic embryogenesis (ISE) is a morphogenetic pathway in which somatic cells form callus and, later, somatic embryos (SE). 2,4-dichlorophenoxyacetic acid (2,4-D) is a synthetic auxin that promotes the proliferation and dedifferentiation of somatic cells, inducing the ISE. However, 2,4-D can cause genetic, epigenetic, physiological and morphological disorders, preventing the regeneration and/or resulting abnormal somatic embryos (ASE). We aimed to evaluate the toxic 2,4-D effect during the Coffea arabica and C. canephora ISE, assessing the SE morphology, global 5-methylcytosine levels (5-mC%) and DNA damage. Leaf explants were inoculated in media with different 2,4-D concentrations. After 90 days, the friable calli were transferred to the regeneration medium, and the number of normal and abnormal SE was monthly counted. The increase of the 2,4-D concentration increased the number of responsive explants in both Coffea. At 9.06, 18.08 and 36.24 μM 2,4-D, C. arabica presented the highest values of responsive explants, differing from C. canephora. Normal and abnormal SE regeneration increased in relation to the time and 2,4-D concentration. Global 5-mC% varied at different stages of the ISE in both Coffea. Furthermore, the 2,4-D concentration positively correlated with global 5-mC%, and with the mean number of ASE. All ASE of C. arabica and C. canephora exhibited DNA damage and showed higher global 5-mC%. The allotetraploid C. arabica exhibited greater tolerance to the toxic effect of 2,4-D than the diploid C. canephora. We conclude that synthetic 2,4-D auxin promotes genotoxic and phytotoxic disorders and promotes epigenetic changes during Coffea ISE.
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Affiliation(s)
- João Paulo de Morais Oliveira
- Laboratório de Citogenética e Cultura de Tecidos Vegetais, Centro de Ciências Agrárias e Engenharias, Universidade Federal do Espírito Santo, Alegre, ES, 29.500-000, Brazil.
| | - Alex Junior da Silva
- Laboratório de Citogenética e Citometria, Departamento de Biologia Geral, Universidade Federal de Viçosa, Viçosa, MG, 36.570-900, Brazil
| | - Mariana Neves Catrinck
- Laboratório de Citogenética e Cultura de Tecidos Vegetais, Centro de Ciências Agrárias e Engenharias, Universidade Federal do Espírito Santo, Alegre, ES, 29.500-000, Brazil
| | - Wellington Ronildo Clarindo
- Laboratório de Citogenética e Citometria, Departamento de Biologia Geral, Universidade Federal de Viçosa, Viçosa, MG, 36.570-900, Brazil.
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Carneros E, Sánchez-Muñoz J, Pérez-Pérez Y, Pintos B, Gómez-Garay A, Testillano PS. Dynamics of Endogenous Auxin and Its Role in Somatic Embryogenesis Induction and Progression in Cork Oak. PLANTS (BASEL, SWITZERLAND) 2023; 12:1542. [PMID: 37050168 PMCID: PMC10097209 DOI: 10.3390/plants12071542] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Figures] [Subscribe] [Scholar Register] [Received: 03/14/2023] [Revised: 03/30/2023] [Accepted: 03/31/2023] [Indexed: 06/19/2023]
Abstract
Somatic embryogenesis (SE) is a feasible in vitro regeneration system with biotechnological applications in breeding programs, although, in many forest species, SE is highly inefficient, mainly due to their recalcitrance. On the other hand, SE represents a valuable model system for studies on cell reprogramming, totipotency acquisition, and embryogenic development. The molecular mechanisms that govern the transition of plant somatic cells to embryogenic cells are largely unknown. There is increasing evidence that auxins mediate this transition and play a key role in somatic embryo development, although data on woody species are very limited. In this study, we analyzed the dynamics and possible role of endogenous auxin during SE in cork oak (Quercus suber L.). The auxin content was low in somatic cells before cell reprogramming, while it increased after induction of embryogenesis, as revealed by immunofluorescence assays. Cellular accumulation of endogenous auxin was also detected at the later stages of somatic embryo development. These changes in auxin levels correlated with the expression patterns of the auxin biosynthesis (QsTAR2) and signaling (QsARF5) genes, which were upregulated after SE induction. Treatments with the inhibitor of auxin biosynthesis, kynurenine, reduced the proliferation of proembryogenic masses and impaired further embryo development. QsTAR2 and QsARF5 were downregulated after kynurenine treatment. Our findings indicate a key role of endogenous auxin biosynthesis and signaling in SE induction and multiplication, as well as somatic embryo development of cork oak.
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Affiliation(s)
- Elena Carneros
- Pollen Biotechnology of Crop Plants Group, Biological Research Center Margarita Salas, CIB-CSIC, Ramiro de Maeztu 9, 28040 Madrid, Spain; (E.C.); (J.S.-M.); (Y.P.-P.)
| | - Jorge Sánchez-Muñoz
- Pollen Biotechnology of Crop Plants Group, Biological Research Center Margarita Salas, CIB-CSIC, Ramiro de Maeztu 9, 28040 Madrid, Spain; (E.C.); (J.S.-M.); (Y.P.-P.)
| | - Yolanda Pérez-Pérez
- Pollen Biotechnology of Crop Plants Group, Biological Research Center Margarita Salas, CIB-CSIC, Ramiro de Maeztu 9, 28040 Madrid, Spain; (E.C.); (J.S.-M.); (Y.P.-P.)
| | - Beatriz Pintos
- Department of Genetics, Microbiology and Physiology, Complutense University of Madrid, 28040 Madrid, Spain; (B.P.); (A.G.-G.)
| | - Aránzazu Gómez-Garay
- Department of Genetics, Microbiology and Physiology, Complutense University of Madrid, 28040 Madrid, Spain; (B.P.); (A.G.-G.)
| | - Pilar S. Testillano
- Pollen Biotechnology of Crop Plants Group, Biological Research Center Margarita Salas, CIB-CSIC, Ramiro de Maeztu 9, 28040 Madrid, Spain; (E.C.); (J.S.-M.); (Y.P.-P.)
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3
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Sanyal R, M M, Pandey S, Nandi S, Biswas P, Dewanjee S, Gopalakrishnan AV, Jha NK, Jha SK, Joshee N, Pandey DK, Dey A, Shekhawat MS. Biotechnological interventions and production of galanthamine in Crinum spp. Appl Microbiol Biotechnol 2023; 107:2155-2167. [PMID: 36922438 DOI: 10.1007/s00253-023-12444-0] [Citation(s) in RCA: 2] [Impact Index Per Article: 2.0] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 11/05/2022] [Revised: 02/13/2023] [Accepted: 02/14/2023] [Indexed: 03/18/2023]
Abstract
Genus Crinum L. is a member of the Amaryllidaceae family having beautiful, huge, ornamental plants with umbels of lily-like blooms that are found in tropical and subtropical climates all over the world. For thousands of years, Crinum has been used as a traditional medicine to treat illnesses and disorders. Numerous distinct alkaloids of the Amaryllidaceae group, whose most well-known properties include analgesic, anticholinergic, antitumor, and antiviral, have recently been discovered by phytochemical analyses. However, because of decades of overexploitation for their economically significant bioactive ingredients and poor seed viability and germination rates, these plants are now threatened in their native environments. Because of these factors, researchers are investigating micropropagation techniques to optimize phytochemicals in vitro. This review's objective is to offer details on the distribution, phytochemistry, micropropagation, in vitro galanthamine synthesis, and pharmacology which will help to design biotechnological techniques for the preservation, widespread multiplication, and required secondary metabolite production from Crinum spp. KEY POINTS: • Botanical description and phytochemical profile of Crinum spp. • In vitro micropropagation method of Crinum sp. • Bioactive compound galanthamine isolation techniques and its pharmacological properties.
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Affiliation(s)
- Rupa Sanyal
- Department of Botany, Bhairab Ganguly College (affiliated to West Bengal State University), Kolkata, West Bengal, 700056, India
| | - Manokari M
- Department of Botany, Siddha Clinical Research Unit, Central Council for Research in Siddha, Palayamkottai, Tamil Nadu, Chennai, 627002, India
| | - Sharmila Pandey
- Department of Botany, Bhairab Ganguly College (affiliated to West Bengal State University), Kolkata, West Bengal, 700056, India
| | - Saheli Nandi
- Department of Botany, Bhairab Ganguly College (affiliated to West Bengal State University), Kolkata, West Bengal, 700056, India
| | - Protha Biswas
- Department of Life Sciences, Presidency University, College Street, Kolkata, 700073, India
| | - Saikat Dewanjee
- Advanced Pharmacognosy Research Laboratory, Department of Pharmaceutical Technology, Jadavpur University, Kolkata, West Bengal, 700032, India
| | - Abilash Valsala Gopalakrishnan
- Department of Biomedical Sciences, School of Bio Sciences and Technology, Vellore Institute of Technology (VIT), Vellore, Tamil Nadu, 632014, India
| | - Niraj Kumar Jha
- Department of Biotechnology, School of Engineering & Technology, Sharda University, Greater Noida, Uttar Pradesh, 201310, India
- Department of Biotechnology Engineering and Food Technology, Chandigarh University, Mohali, 140413, India
- Department of Biotechnology, School of Applied & Life Sciences (SALS), Uttaranchal University, Dehradun, 248007, India
| | - Saurabh Kumar Jha
- Department of Biotechnology, School of Engineering & Technology, Sharda University, Greater Noida, Uttar Pradesh, 201310, India
- Department of Biotechnology Engineering and Food Technology, Chandigarh University, Mohali, 140413, India
- Department of Biotechnology, School of Applied & Life Sciences (SALS), Uttaranchal University, Dehradun, 248007, India
| | - Nirmal Joshee
- Agricultural Research Station, Fort Valley State University, Fort Valley, GA, 31088, USA
| | - Devendra Kumar Pandey
- Department of Biotechnology, Lovely Professional University Punjab, Phagwara, Punjab, India
| | - Abhijit Dey
- Department of Life Sciences, Presidency University, College Street, Kolkata, 700073, India.
| | - Mahipal S Shekhawat
- Biotechnology Unit, Kanchi Mamunivar Government Institute for Postgraduate Studies and Research, -605008, Puducherry, India.
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4
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Qi S, Zhao R, Yan J, Fan Y, Huang C, Li H, Chen S, Zhang T, Kong L, Zhao J, Zhang J. Global Transcriptome and Coexpression Network Analyses Reveal New Insights Into Somatic Embryogenesis in Hybrid Sweetgum ( Liquidambar styraciflua × Liquidambar formosana). FRONTIERS IN PLANT SCIENCE 2021; 12:751866. [PMID: 34880884 PMCID: PMC8645980 DOI: 10.3389/fpls.2021.751866] [Citation(s) in RCA: 8] [Impact Index Per Article: 2.7] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Figures] [Subscribe] [Scholar Register] [Received: 08/02/2021] [Accepted: 10/22/2021] [Indexed: 06/13/2023]
Abstract
Somatic embryogenesis (SE) is a process of somatic cells that dedifferentiate to totipotent embryonic stem cells and generate embryos in vitro. Despite recent scientific headway in deciphering the difficulties of somatic embryogenesis, the overall picture of key genes, pathways, and co-expression networks regulating SE is still fragmented. Therefore, deciphering the molecular basis of somatic embryogenesis of hybrid sweetgum remains pertinent. In the present study, we analyzed the transcriptome profiles and gene expression regulation changes via RNA sequencing from three distinct developmental stages of hybrid sweetgum: non-embryogenic callus (NEC), embryogenic callus (EC), and redifferentiation. Comparative transcriptome analysis showed that 19,957 genes were differentially expressed in ten pairwise comparisons of SE. Among these, plant hormone signaling-related genes, especially the auxin and cytokinin signaling components, were significantly enriched in NEC and EC early. The K-means method was used to identify multiple transcription factors, including HB-WOX, B3-ARF, AP2/ERF, and GRFs (growth regulating factors). These transcription factors showed distinct stage- or tissue-specific expression patterns mirroring each of the 12 superclusters to which they belonged. For example, the WOX transcription factor family was expressed only at NEC and EC stages, ARF transcription factor was expressed in EC early, and GRFs was expressed in late SE. It was noteworthy that the AP2/ERF transcription factor family was expressed during the whole SE process, but almost not in roots, stems and leaves. A weighted gene co-expression network analysis (WGCNA) was used in conjunction with the gene expression profiles to recognize the genes and modules that may associate with specific tissues and stages. We constructed co-expression networks and revealed 22 gene modules. Four of these modules with properties relating to embryonic potential, early somatic embryogenesis, and somatic embryo development, as well as some hub genes, were identified for further functional studied. Through a combination analysis of WGCNA and K-means, SE-related genes including AUX22, ABI3, ARF3, ARF5, AIL1, AIL5, AGL15, WOX11, WOX9, IAA29, BBM1, MYB36, LEA6, SMR4 and others were obtained, indicating that these genes play an important role in the processes underlying the progression from EC to somatic embryos (SEs) morphogenesis. The transcriptome information provided here will form the foundation for future research on genetic transformation and epigenetic control of plant embryogenesis at a molecular level. In follow-up studies, these data could be used to construct a regulatory network for SE; Key genes obtained from coexpression network analysis at each critical stage of somatic embryo can be considered as potential candidate genes to verify these networks.
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Affiliation(s)
- Shuaizheng Qi
- College of Biological Science and Biotechnology, Beijing Forestry University, Beijing, China
| | - Ruirui Zhao
- College of Biological Science and Biotechnology, Beijing Forestry University, Beijing, China
| | - Jichen Yan
- College of Biological Science and Biotechnology, Beijing Forestry University, Beijing, China
| | - Yingming Fan
- College of Biological Science and Biotechnology, Beijing Forestry University, Beijing, China
| | - Chao Huang
- College of Biological Science and Biotechnology, Beijing Forestry University, Beijing, China
| | - Hongxuan Li
- College of Biological Science and Biotechnology, Beijing Forestry University, Beijing, China
| | - Siyuan Chen
- College of Biological Science and Biotechnology, Beijing Forestry University, Beijing, China
| | - Ting Zhang
- College of Biological Science and Biotechnology, Beijing Forestry University, Beijing, China
| | - Lisheng Kong
- College of Biological Science and Biotechnology, Beijing Forestry University, Beijing, China
- Department of Biology, Centre for Forest Biology, University of Victoria, Victoria, BC, Canada
| | - Jian Zhao
- College of Biological Science and Biotechnology, Beijing Forestry University, Beijing, China
| | - Jinfeng Zhang
- College of Biological Science and Biotechnology, Beijing Forestry University, Beijing, China
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5
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Hazubska-Przybył T, Ratajczak E, Obarska A, Pers-Kamczyc E. Different Roles of Auxins in Somatic Embryogenesis Efficiency in Two Picea Species. Int J Mol Sci 2020; 21:E3394. [PMID: 32403374 PMCID: PMC7246981 DOI: 10.3390/ijms21093394] [Citation(s) in RCA: 16] [Impact Index Per Article: 4.0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 04/03/2020] [Revised: 05/01/2020] [Accepted: 05/09/2020] [Indexed: 12/18/2022] Open
Abstract
The effects of auxins 2,4-D (2,4-dichlorophenoxyacetic acid), NAA (1-naphthaleneacetic acid) or picloram (4-amino-3,5,6-trichloropicolinic acid; 9 µM) and cytokinin BA (benzyloadenine; 4.5 µM) applied in the early stages of somatic embryogenesis (SE) on specific stages of SE in Picea abies and P. omorika were investigated. The highest SE initiation frequency was obtained after 2,4-D application in P. omorika (22.00%) and picloram application in P. abies (10.48%). NAA treatment significantly promoted embryogenic tissue (ET) proliferation in P. abies, while 2,4-D treatment reduced it. This reduction was related to the oxidative stress level, which was lower with the presence of NAA in the proliferation medium and higher with the presence of 2,4-D. The reduced oxidative stress level after NAA treatment suggests that hydrogen peroxide (H2O2) acts as a signalling molecule and promotes ET proliferation. NAA and picloram in the proliferation medium decreased the further production and maturation of P. omorika somatic embryos compared with that under 2,4-D. The quality of the germinated P. abies embryos and their development into plantlets depended on the auxin type and were the highest in NAA-originated embryos. These results show that different auxin types can generate different physiological responses in plant materials during SE in both spruce species.
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Affiliation(s)
- Teresa Hazubska-Przybył
- Institute of Dendrology, Polish Academy of Sciences, 62-035 Kórnik, Poland; (E.R.); (A.O.); (E.P.-K.)
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6
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Song S, Wang Z, Ren Y, Sun H. Full-Length Transcriptome Analysis of the ABCB, PIN/PIN-LIKES, and AUX/LAX Families Involved in Somatic Embryogenesis of Lilium pumilum DC. Fisch. Int J Mol Sci 2020; 21:E453. [PMID: 31936841 PMCID: PMC7014436 DOI: 10.3390/ijms21020453] [Citation(s) in RCA: 9] [Impact Index Per Article: 2.3] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 12/23/2019] [Revised: 01/07/2020] [Accepted: 01/08/2020] [Indexed: 12/13/2022] Open
Abstract
Plant cell totipotency is one of the 25 major topics in current scientific research, and somatic embryos are good experimental material for studying cell totipotency. Polar auxin transport plays an important regulatory role in somatic embryogenesis (SE). However, little is known about the auxin transport genes and their regulatory mechanisms in Lilium SE. In this study, we applied single-molecule real-time (SMRT) sequencing to Lilium pumilum DC. Fisch. for the first time and obtained a total of 119,649 transcripts, of which 14 encoded auxin transport genes. Correlation analyses between somatic embryo induction and gene expression under different treatments revealed that auxin transport genes, especially ATP-binding cassette (ABC) transporter B family member 21 (ABCB21) and PIN-FORMED (PIN) LIKES 7 (PILS7), may be key players in SE, and the necessary duration of picloram (PIC) treatment to induce SE is as short as 3 days. Our research provides valuable genetic information on Lilium pumilum, elucidating the candidate auxin transport genes involved in SE and their influencing factors. This study lays a foundation for elucidating the regulatory mechanism of auxin transport in SE.
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Affiliation(s)
- Shengli Song
- Key Laboratory of Protected Horticulture of Education Ministry and Liaoning Province, College of Horticulture, Shenyang Agricultural University, Shenyang 110866, China; (S.S.); (Z.W.); (Y.R.)
| | - Zhiping Wang
- Key Laboratory of Protected Horticulture of Education Ministry and Liaoning Province, College of Horticulture, Shenyang Agricultural University, Shenyang 110866, China; (S.S.); (Z.W.); (Y.R.)
| | - Yamin Ren
- Key Laboratory of Protected Horticulture of Education Ministry and Liaoning Province, College of Horticulture, Shenyang Agricultural University, Shenyang 110866, China; (S.S.); (Z.W.); (Y.R.)
| | - Hongmei Sun
- Key Laboratory of Protected Horticulture of Education Ministry and Liaoning Province, College of Horticulture, Shenyang Agricultural University, Shenyang 110866, China; (S.S.); (Z.W.); (Y.R.)
- National and Local Joint Engineering Research Center of Northern Horticultural Facilities Design and Application Technology, Horticulture Department, Shenyang Agricultural University, Shenyang 110866, China
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Isah T. Proteome study of somatic embryogenesis in Nothapodytes nimmoniana (J. Graham) Mabberly. 3 Biotech 2019; 9:119. [PMID: 30854279 DOI: 10.1007/s13205-019-1637-4] [Citation(s) in RCA: 5] [Impact Index Per Article: 1.0] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 02/08/2019] [Accepted: 02/14/2019] [Indexed: 01/02/2023] Open
Abstract
Somatic embryogenesis (SE) is the most suitable biotechnological tool for the rapid clonal propagation of endangered woody plants, but many bottlenecks limit understanding its molecular and physiological processes in Nothapodytes nimmoniana. Combinations of two-dimensional electrophoresis (2-DE) and mass spectrometry (MaSp) were used to study proteomic expression changes during SE of the forest tree. Callus was induced from mature seed embryos, and embryogenic callus (EC) obtained at very low frequency after about 6 month culture. Globular embryos were induced from the seed embryo-derived EC and the subsequent stages of the SE. Analysis of the extracted proteins from globular, heart/torpedo-shaped, and maturing embryo stages resolved in the 2-DE gels showed increased protein expression across developmental stages of the somatic embryos. The mass spectrometric analysis with database search aided identification of 55 out of 100 and 54 selected protein spots. Identified proteins classified by the cellular role which they perform are involved in aspects of stress responses, energy metabolism, carbon fixation, secondary metabolism, and other metabolic functions, while three proteins are of unknown cellular role. The putative role of the expressed proteins during SE provided insight into the physiology of somatic embryo development in N. nimmoniana.
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Affiliation(s)
- Tasiu Isah
- Department of Botany, School of Chemical and Life Sciences, Hamdard University, New Delhi, 110 062 India
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Gautier F, Label P, Eliášová K, Leplé JC, Motyka V, Boizot N, Vondráková Z, Malbeck J, Trávníčková A, Le Metté C, Lesage-Descauses MC, Lomenech AM, Trontin JF, Costa G, Lelu-Walter MA, Teyssier C. Cytological, Biochemical and Molecular Events of the Embryogenic State in Douglas-fir ( Pseudotsuga menziesii [Mirb.]). FRONTIERS IN PLANT SCIENCE 2019; 10:118. [PMID: 30873184 PMCID: PMC6403139 DOI: 10.3389/fpls.2019.00118] [Citation(s) in RCA: 4] [Impact Index Per Article: 0.8] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Subscribe] [Scholar Register] [Received: 10/02/2018] [Accepted: 01/23/2019] [Indexed: 05/08/2023]
Abstract
Somatic embryogenesis techniques have been developed for most coniferous species, but only using very juvenile material. To extend the techniques' scope, better integrated understanding of the key biological, physiological and molecular characteristics of embryogenic state is required. Therefore, embryonal masses (EMs) and non-embryogenic calli (NECs) have been compared during proliferation at multiple levels. EMs and NECs originating from a single somatic embryo (isogenic lines) of each of three unrelated genotypes were used in the analyses, which included comparison of the lines' anatomy by transmission light microscopy, transcriptomes by RNAseq Illumina sequencing, proteomes by free-gel analysis, contents of endogenous phytohormones (indole-3-acetic acid, cytokinins and ABA) by LC-MS analysis, and soluble sugar contents by HPLC. EMs were characterized by upregulation (relative to levels in NECs) of transcripts, proteins, transcription factors and active cytokinins associated with cell differentiation accompanied by histological, carbohydrate content and genetic markers of cell division. In contrast, NECs were characterized by upregulation (relative to levels in EMs) of transcripts, proteins and products associated with responses to stimuli (ABA, degradation forms of cytokinins, phenols), oxidative stress (reactive oxygen species) and carbohydrate storage (starch). Sub-Network Enrichment Analyses that highlighted functions and interactions of transcripts and proteins that significantly differed between EMs and NECs corroborated these findings. The study shows the utility of a novel approach involving integrated multi-scale transcriptomic, proteomic, biochemical, histological and anatomical analyses to obtain insights into molecular events associated with embryogenesis and more specifically to the embryogenic state of cell in Douglas-fir.
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Affiliation(s)
- Florian Gautier
- BioForA, INRA, ONF, Orléans, France
- PEIRENE, Sylva LIM, Université de Limoges, Limoges, France
| | | | - Kateřina Eliášová
- Institute of Experimental Botany of the Czech Academy of Sciences, Prague, Czechia
| | | | - Václav Motyka
- Institute of Experimental Botany of the Czech Academy of Sciences, Prague, Czechia
| | | | - Zuzana Vondráková
- Institute of Experimental Botany of the Czech Academy of Sciences, Prague, Czechia
| | - Jiří Malbeck
- Institute of Experimental Botany of the Czech Academy of Sciences, Prague, Czechia
| | - Alena Trávníčková
- Institute of Experimental Botany of the Czech Academy of Sciences, Prague, Czechia
| | | | | | - Anne-Marie Lomenech
- Centre de Génomique Fonctionnelle, Plateforme Protéome, University of Bordeaux, Bordeaux, France
| | | | - Guy Costa
- PEIRENE, Sylva LIM, Université de Limoges, Limoges, France
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Salaj T, Klubicová K, Matusova R, Salaj J. Somatic Embryogenesis in Selected Conifer Trees Pinus nigra Arn. and Abies Hybrids. FRONTIERS IN PLANT SCIENCE 2019; 10:13. [PMID: 30761164 PMCID: PMC6361753 DOI: 10.3389/fpls.2019.00013] [Citation(s) in RCA: 16] [Impact Index Per Article: 3.2] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Subscribe] [Scholar Register] [Received: 06/15/2018] [Accepted: 01/07/2019] [Indexed: 05/12/2023]
Abstract
Somatic embryogenesis was achieved in the conifers Pinus nigra Arn. and in the hybrids Abies alba ×A. cephalonica and Abies alba ×A. numidica. For initiation of embryogenic tissue in P. nigra, immature zygotic embryos enclosed in megagametophytes were used. The initiated embryogenic cultures were maintained and proliferated on solid culture medium DCR supplemented with 9 μM 2,4-D and 2.2 μM BA. Microscopic investigations revealed the presence of bipolar early somatic embryos in proliferating tissue. Suspension cultures have also been established by resuspending the embryogenic tissue in liquid culture medium. Experimentation with abscisic acid concentration resulted in successful somatic embryo maturation. Besides abscisic acid, the carbohydrate content or higher concentration of gelling agent in maturation medium were also important requirements for somatic embryo maturation. Germination of cotyledonary somatic embryos occurred on hormone-free medium and terminated in somatic seedlings regeneration. The regenerated somatic seedlings were transferred to soil and were capable of successful development. For initiation of embryogenic tissue in Abies hybrids juvenile explants as immature or mature zygotic embryos as well as cotyledons were used and 4.4 μM BA as sole plant growth regulator was sufficient. Medium of the same composition was also suitable for their long-term maintenance. Maturation of somatic embryos was achieved on solid DCR medium supplemented with 38 μM abscisic acid, polyethylene glycol (0, 5, 7.5, and 10% PEG-4000) and different carbohydrates such as maltose, sucrose and glucose (each 3%). PEG-4000 stimulated somatic embryo development depending on the carbohydrate source used. Cotyledonary somatic embryos germinated after desiccation treatment and the regenerated somatic seedlings were transferred to soil. Cryopreservation of embryogenic tissue could be an alternative method for long-term maintenance. For cryopreservation the slow-freezing method was used with success. Tissue regeneration in the post thaw period was relatively high and the regenerated tissue produced mature somatic embryos and subsequent plantlets. The embryogenic tissue was also used in experiments focused on genetic transformation either by biolistic (P. nigra) or Agrobacterium-mediated (Abies hybrids) methods. A proteomic study was performed to gain a deeper insight into the early stages of P. nigra somatic embryogenesis.
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Affiliation(s)
- Terézia Salaj
- Institute of Plant Genetics and Biotechnology, Plant Science and Biodiversity Center, Slovak Academy of Sciences, Nitra, Slovakia
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Arrillaga I, Morcillo M, Zanón I, Lario F, Segura J, Sales E. New Approaches to Optimize Somatic Embryogenesis in Maritime Pine. FRONTIERS IN PLANT SCIENCE 2019; 10:138. [PMID: 30838010 PMCID: PMC6389691 DOI: 10.3389/fpls.2019.00138] [Citation(s) in RCA: 10] [Impact Index Per Article: 2.0] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Subscribe] [Scholar Register] [Received: 09/15/2018] [Accepted: 01/28/2019] [Indexed: 05/22/2023]
Abstract
Maritime pine (Pinus pinaster Aiton) is a coniferous native of the Mediterranean basin. Because of its adaptability to a wide range of environmental conditions, the species have become a model for studies in coniferous forest management and functional genomics. Somatic embryogenesis (SE) has been so far, the preferred biotechnological strategy for maritime pine breeding programs initiated at the middle-end of the 20th century. To overcome the limitations of the induction and maturation phases in maritime pine SE, we analyzed the possible maternal influence on the embryogenic capability of megagametophytes from controlled crosses, as well as the effect of the temperature and water availability during SE process on the production of plants. A strong maternal effect on the embryogenic potential of maritime pine megagametophytes was observed in our experiments using half-sib and full-sib progenies, while paternal effect was almost undetectable. Besides, it seems possible to improve somatic embryo production of maritime pine megagametophytes by adjusting optimal temperature throughout the process: 28°C during induction and proliferation, and 23°C during the maturation phase. Using induction and proliferation media with reduced water availability (6 g/L Gelrite) can also increase embryo production. Since other limitation of maritime pine SE is culture decline of embryogenic masses (EMs), that reduces embryo yield and germination, we assessed the profile of ABA and IAA and the expression of two embryogenesis-related genes (LEC1 and WOX2) during maturation of EMs of two morphotypes that differed in their maturation capability. Spiky morphotype (SK), with high maturation capability, had a steady increase in both hormones along the 12 weeks of the maturation, whereas ABA content in smooth morphotype picked at the 4th week and dropped. EMs with this morphotype also had a higher IAA content at the beginning of the maturation. A decrease of LEC1 and WOX2 gene expression over the course of embryo development was found to be characteristic of the SK with high maturation capability.
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Affiliation(s)
- Isabel Arrillaga
- ERI BiotecMed, Departamento de Biología Vegetal, Facultad de Farmacia, Universidad de Valencia, Valencia, Spain
- *Correspondence: Isabel Arrillaga,
| | - Marian Morcillo
- ERI BiotecMed, Departamento de Biología Vegetal, Facultad de Farmacia, Universidad de Valencia, Valencia, Spain
| | - Israel Zanón
- ERI BiotecMed, Departamento de Biología Vegetal, Facultad de Farmacia, Universidad de Valencia, Valencia, Spain
| | - Francisco Lario
- TRAGSA, Vivero de Maceda, Carretera Maceda – Baldrei, Ourense, Spain
| | - Juan Segura
- ERI BiotecMed, Departamento de Biología Vegetal, Facultad de Farmacia, Universidad de Valencia, Valencia, Spain
| | - Ester Sales
- Departamento de Ciencias Agrarias y del Medio Natural, Escuela Politécnica Superior, Instituto Universitario de Ciencias Ambientales, Universidad de Zaragoza, Huesca, Spain
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11
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Betekhtin A, Rojek M, Nowak K, Pinski A, Milewska-Hendel A, Kurczynska E, Doonan JH, Hasterok R. Cell Wall Epitopes and Endoploidy as Reporters of Embryogenic Potential in Brachypodium Distachyon Callus Culture. Int J Mol Sci 2018; 19:E3811. [PMID: 30501101 PMCID: PMC6321580 DOI: 10.3390/ijms19123811] [Citation(s) in RCA: 6] [Impact Index Per Article: 1.0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 10/31/2018] [Revised: 11/26/2018] [Accepted: 11/27/2018] [Indexed: 11/17/2022] Open
Abstract
Effective regeneration of callus tissue into embryos and then into whole plants is essential for plant biotechnology. The embryonic potential is often low and can further decrease with time in culture, which limits the utilisation of calli for transformation procedures and in vitro propagation. In this study, we show that the loss of embryogenic potential in callus cultures of Brachypodium distachyon is progressive over time. Flow cytometry analyses indicated endoploidy levels increased in 60- and 90-day-old calli with effective loss of the 2C DNA content peak in the latter. Analysis of indolic compounds content revealed a decrease in 60- and 90-day-old calli compared to either freshly isolated explants or 30-day-old calli. Immunohistochemical analysis revealed a decrease in arabinogalactan proteins (AGP) signal with the time of culture, but extensin (EXT) epitopes either increased (JIM12 epitopes) or decreased (JIM11 epitopes). The transcript accumulation levels of AGPs and EXTs confirmed these results, with most of AGP and EXT transcripts gradually decreasing. Some chimeric EXT transcripts significantly increased on the 30th day of culture, perhaps because of an increased embryogenic potential. Selected somatic embryogenesis-related genes and cyclins demonstrated a gradual decrease of transcript accumulation for YUCCA (YUC), AINTEGUMENTA-LIKE (AIL), BABY BOOM (BBM), and CLAVATA (CLV3) genes, as well as for most of the cyclins, starting from the 30th day of culture. Notably, WUSCHEL (WUS) transcript was detectable only on the 30th and 60th day and was not detectable in the zygotic embryos and in 90-day-old calli.
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Affiliation(s)
- Alexander Betekhtin
- Department of Plant Anatomy and Cytology, Faculty of Biology and Environmental Protection, University of Silesia in Katowice, Katowice 40-007, Poland.
| | - Magdalena Rojek
- Department of Plant Anatomy and Cytology, Faculty of Biology and Environmental Protection, University of Silesia in Katowice, Katowice 40-007, Poland.
| | - Katarzyna Nowak
- Department of Genetics, Faculty of Biology and Environmental Protection, University of Silesia in Katowice, Katowice 40-007, Poland.
| | - Artur Pinski
- Department of Plant Anatomy and Cytology, Faculty of Biology and Environmental Protection, University of Silesia in Katowice, Katowice 40-007, Poland.
| | - Anna Milewska-Hendel
- Department of Cell Biology, Faculty of Biology and Environmental Protection, University of Silesia in Katowice, Katowice 40-007, Poland.
| | - Ewa Kurczynska
- Department of Cell Biology, Faculty of Biology and Environmental Protection, University of Silesia in Katowice, Katowice 40-007, Poland.
| | - John H Doonan
- National Plant Phenomics Centre, IBERS, Aberystwyth University, Aberystwyth SY23 3EE, UK.
| | - Robert Hasterok
- Department of Plant Anatomy and Cytology, Faculty of Biology and Environmental Protection, University of Silesia in Katowice, Katowice 40-007, Poland.
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12
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Márquez-López RE, Pérez-Hernández C, Ku-González Á, Galaz-Ávalos RM, Loyola-Vargas VM. Localization and transport of indole-3-acetic acid during somatic embryogenesis in Coffea canephora. PROTOPLASMA 2018; 255:695-708. [PMID: 29119309 DOI: 10.1007/s00709-017-1181-1] [Citation(s) in RCA: 31] [Impact Index Per Article: 5.2] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Subscribe] [Scholar Register] [Received: 07/25/2017] [Accepted: 10/26/2017] [Indexed: 05/22/2023]
Abstract
Auxin and polar auxin transport have been implicated in controlling zygotic embryo development, but less is known about their role in the development of somatic embryos. The aim of this study was to determine if indole-3-acetic acid (IAA) and the PIN1 transporter participate in the induction of somatic embryogenesis (SE) and the development of somatic embryos. The results show that IAA levels gradually increase during pre-treatment and accumulate in the chloroplast. During pre-treatment and the globular stage of SE in C. canephora, auxin is distributed uniformly in all of the cells of the somatic embryo. During the subsequent stages of development, auxins are mobilized to the cells that will form the cotyledons and the root meristem. The location of the PIN transporters shifts from the plasmalemma of the protoderm cells during the globular stage to the plasmalemma of the cells that will give rise to the cotyledons and the vascular tissue in the late stages of somatic embryogenesis. The incubation of the explants in the presence of 2,3,5-triiodobenzoic acid (TIBA) produced aberrant somatic embryos, suggesting that PIN1 mediates the transport of IAA.
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Affiliation(s)
- Ruth E Márquez-López
- Unidad de Bioquímica y Biología Molecular de Plantas, Centro de Investigación Científica de Yucatán, Calle 43, No. 130, Col. Chuburná de Hidalgo, CP, 97205, Mérida, Yucatán, Mexico
| | - Cleyre Pérez-Hernández
- Unidad de Bioquímica y Biología Molecular de Plantas, Centro de Investigación Científica de Yucatán, Calle 43, No. 130, Col. Chuburná de Hidalgo, CP, 97205, Mérida, Yucatán, Mexico
| | - Ángela Ku-González
- Unidad de Bioquímica y Biología Molecular de Plantas, Centro de Investigación Científica de Yucatán, Calle 43, No. 130, Col. Chuburná de Hidalgo, CP, 97205, Mérida, Yucatán, Mexico
| | - Rosa María Galaz-Ávalos
- Unidad de Bioquímica y Biología Molecular de Plantas, Centro de Investigación Científica de Yucatán, Calle 43, No. 130, Col. Chuburná de Hidalgo, CP, 97205, Mérida, Yucatán, Mexico
| | - Víctor Manuel Loyola-Vargas
- Unidad de Bioquímica y Biología Molecular de Plantas, Centro de Investigación Científica de Yucatán, Calle 43, No. 130, Col. Chuburná de Hidalgo, CP, 97205, Mérida, Yucatán, Mexico.
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13
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Vondrakova Z, Dobrev PI, Pesek B, Fischerova L, Vagner M, Motyka V. Profiles of Endogenous Phytohormones Over the Course of Norway Spruce Somatic Embryogenesis. FRONTIERS IN PLANT SCIENCE 2018; 9:1283. [PMID: 30237806 PMCID: PMC6136392 DOI: 10.3389/fpls.2018.01283] [Citation(s) in RCA: 14] [Impact Index Per Article: 2.3] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Subscribe] [Scholar Register] [Received: 04/12/2018] [Accepted: 08/16/2018] [Indexed: 05/19/2023]
Abstract
Conifer somatic embryogenesis (SE) is a process driven by exogenously supplied plant growth regulators (PGRs). Exogenous PGRs and endogenous phytohormones trigger particular ontogenetic events. Complex mechanisms involving a number of endogenous phytohormones control the differentiation of cells and tissues, as well as the establishment of structures and organs. Most of the mechanisms and hormonal functions in the SE of conifers have not yet been described. With the aim to better understand these mechanisms, we provided detailed analysis of the spectrum of endogenous phytohormones over the course of SE in Norway spruce (Picea abies). Concentrations of endogenous phytohormones including auxins, cytokinins (CKs), abscisic acid (ABA), jasmonates, and salicylic acid (SA) in somatic P. abies embryos were analyzed by HPLC-ESI-MS/MS. The results revealed that the concentrations of particular phytohormone classes varied substantially between proliferation, maturation, desiccation, and germination. Endogenous ABA showed a maximum concentration at the maturation stage, which reflected the presence of exogenous ABA in the medium and demonstrated its efficient perception by the embryos as a prerequisite for their further development. Auxins also had concentration maxima at the maturation stage, suggesting a role in embryo polarization. Endogenous jasmonates were detected in conifer somatic embryos for the first time, and reached maxima at germination. According to our knowledge, we have presented evidence for the involvement of the non-indole auxin phenylacetic acid, cis-zeatin- and dihydrozeatin-type CKs and SA in SE for the first time. The presented results represent the currently most comprehensive overview of plant hormone levels in embryos throughout the whole process of conifer SE. The differences in concentrations of various classes of phytohormones over the proliferation, maturation, desiccation, and germination in somatic P. abies embryos clearly indicate correlations between endogenous phytohormone profiles and particular developmental stages of the SE of conifers.
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Affiliation(s)
- Zuzana Vondrakova
- Laboratory of Biologically Active Compounds, Institute of Experimental Botany of the Czech Academy of Sciences, Prague, Czechia
| | - Petre I. Dobrev
- Laboratory of Hormonal Regulations in Plants, Institute of Experimental Botany of the Czech Academy of Sciences, Prague, Czechia
| | - Bedrich Pesek
- Laboratory of Mass Spectrometry, Institute of Experimental Botany of the Czech Academy of Sciences, Prague, Czechia
| | - Lucie Fischerova
- Laboratory of Biologically Active Compounds, Institute of Experimental Botany of the Czech Academy of Sciences, Prague, Czechia
| | - Martin Vagner
- Laboratory of Biologically Active Compounds, Institute of Experimental Botany of the Czech Academy of Sciences, Prague, Czechia
| | - Vaclav Motyka
- Laboratory of Hormonal Regulations in Plants, Institute of Experimental Botany of the Czech Academy of Sciences, Prague, Czechia
- *Correspondence: Vaclav Motyka,
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14
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Díaz-Sala C. Molecular Dissection of the Regenerative Capacity of Forest Tree Species: Special Focus on Conifers. FRONTIERS IN PLANT SCIENCE 2018; 9:1943. [PMID: 30687348 PMCID: PMC6333695 DOI: 10.3389/fpls.2018.01943] [Citation(s) in RCA: 16] [Impact Index Per Article: 2.7] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Subscribe] [Scholar Register] [Received: 08/06/2018] [Accepted: 12/13/2018] [Indexed: 05/21/2023]
Abstract
Somatic embryogenesis (SE) and organogenesis have become leading biotechnologies for forest tree improvement and the implementation of multi-varietal forestry. Despite major advances in clonal propagation using these technologies, many forest tree species, such as conifers, show a low regeneration capacity. Developmental factors such as genotype, the type and age of the explant or tissue, and the age and maturity of the mother tree are limiting factors for the success of propagation programs. This review summarizes recent research on the molecular pathways involved in the regulation of key steps in SE and organogenesis of forest tree species, mainly conifers. The interaction between auxin and stress conditions, the induction of cell identity regulators and the role of cell wall remodeling are reviewed. This information is essential to develop tools and strategies to improve clonal propagation programs for forest tree species.
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15
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Ayil-Gutiérrez B, Galaz-Ávalos RM, Peña-Cabrera E, Loyola-Vargas VM. Dynamics of the concentration of IAA and some of its conjugates during the induction of somatic embryogenesis in Coffea canephora. PLANT SIGNALING & BEHAVIOR 2013; 8:e26998. [PMID: 24299659 PMCID: PMC4091420 DOI: 10.4161/psb.26998] [Citation(s) in RCA: 41] [Impact Index Per Article: 3.7] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Subscribe] [Scholar Register] [Received: 09/18/2013] [Revised: 10/29/2013] [Accepted: 10/30/2013] [Indexed: 05/18/2023]
Abstract
Most of the somatic embryogenesis (SE) process requires the presence, either before or during the embryogenic process, of at least one exogenous auxin. This exogenous auxin induces the presence of endogenous auxins, which appears to be essential for SE induction. We found that during the preincubation period of SE in Coffea canephora, there is an important increase in both free and conjugated indole-3-acetic acid (IAA), as well as indole-3-butyric acid. This increase is accompanied by an increase in the expression of YUCCA (CcYUC), TRYPTOPHAN AMINOTRANSFERASE OF ARABIDOPSIS 1 (CcTAA1), and GRETCHEN HAGEN 3 (GH3) genes. On the other hand, most of the IAA compounds decreased during the induction of SE. The results presented in this research suggest that a balance between free IAA and its amide conjugates is necessary to allow the expression of SE-related genes.
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Affiliation(s)
- Benajmín Ayil-Gutiérrez
- Unidad de Bioquímica y Biología Molecular de Plantas; Centro de Investigación Científica de Yucatán; Mérida, Yucatán, México
| | - Rosa María Galaz-Ávalos
- Unidad de Bioquímica y Biología Molecular de Plantas; Centro de Investigación Científica de Yucatán; Mérida, Yucatán, México
| | - Eduardo Peña-Cabrera
- Departamento de Química; Universidad de Guanajuato; Col. Noria Alta S/N, Guanajuato, México
| | - Victor Manuel Loyola-Vargas
- Unidad de Bioquímica y Biología Molecular de Plantas; Centro de Investigación Científica de Yucatán; Mérida, Yucatán, México
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