Análise comparativa da embriogênese somática em Citrus sinensis, var. valência, e Citrus limonia, var. limão cravo. / Comparative analysis of somatic embryogenesis in citrus sinensis, var. valencia, and citrus limonia, var. rangpur lime.

Moraes, Joanne Neves

25 September 2003

A embriogênese somática é uma técnica alternativa com potencial aplicação na propagação clonal de plantas, além de ser uma excelente ferramenta para estudos básicos e análise dos eventos moleculares e bioquímicos que ocorrem durante a embriogênese vegetal. Contudo, apesar de várias pesquisas relativas a embriogênese somática, a falta de conhecimento sobre os fatores que controlam o fenômeno, comprova que existem ainda muitos pontos a serem entendidos sobre o processo. Deste modo, o presente estudo foi concebido com o intuito de estudar a embriogênese somática de duas espécies de citros, as quais apresentam diferentes graus de eficiência na produção de embriões somáticos. Inicialmente, buscou-se avaliar comparativamente o processo de embriogênese somática de duas espécies de citros, observando-se as diferenças estruturais através de análises histológicas e histoquímicas, e as diferenças na expressão do gene AtSERK1 nos calos, através de hibridização in situ. Para instalação dos experimentos, foram utilizados calos provenientes de nucelos de duas espécies, Citrus sinensis L. Osbeck, variedade Valência, e Citrus limonia Osbeck, variedade limão ‘Cravo’. Amostras de calos em meio de multiplicação, em meio de obtenção de embriões, e embriões somáticos nas diferentes fases de desenvolvimento foram coletados para observações anatômicas e histoquímicas através de microscopia óptica e realização de estudo da expressão gênica através de hibridização in situ. Com relação à morfologia, os principais resultados obtidos demonstraram que existem diferenças anatômicas e histoquímicas entre calos de limão ‘Cravo’ e ‘Valência’. Em relação à expressão gênica, os resultados evidenciaram a expressão do gene AtSERK1 em calos das duas espécies de citros, tanto em meio de multiplicação, com sacarose, como em meio de indução, com maltose, indicando que o potencial embriogênico já está instalado no calo em meio de multiplicação. Pode-se concluir também que este gene é conservado entre Arabidopsis e Citrus. Desenvolveram-se, também, experimentos para estudar os efeitos de alguns tratamentos (frio, dessecação, agrupamentos celulares) na otimização da indução e sincronização da embriogênese somática de C. sinensis, var. Valência. Neste sentido, calos nucelares de laranja ‘Valência’, procedentes do meio de multiplicação foram mantidos no mesmo meio líquido em agitador orbital a 200 rpm durante 24h e posteriormente peneirados de acordo com os tratamentos. As peneiras utilizadas apresentaram malhas de 150 µm (P1), 300 µm (P2) e 600 µm (P3). Além do efeito das peneiras também foram observados os efeitos de exposição ao frio (4 o C por quatro semanas, ausência de luz) e dessecação (27 o C, em placas de Petri na ausência de meio de cultura, seis dias, ausência de luz), sendo posteriormente mantidos em B.O.D., a 26 ± 1 o C e intensidade luminosa de 300 lux. Os resultados obtidos permitiram concluir que em relação ao desenvolvimento e produção de embriões somáticos o fator peneira foi superior ao fator estresse na freqüência embriogênica. O desenvolvimento de embriões somáticos em Citrus sinensis ocorre mais eficientemente a partir de agrupamentos celulares de tamanhos específicos. / Somatic embryogenesis is an alternative technique with potential application for clonal propagation of plants, and an excellent tool for basic studies and analysis of the molecular and biochemical events that occur during embryogenesis. However, although many studies have been done, the factors that control somatic embryogenesis are not completely understood. Thus, the present study proposes to evaluate aspects of somatic embryogenesis of two citrus species, which differ in efficiency for the production of somatic embryos. Initially, a comparison of the embryogenic process was done in terms of structural and histochemical analysis and evaluation of the expression of the gene AtSERK1 in callus cultures through in situ hybridization. For the experiments, callus cultures obtained from nucelli of two species, Citrus sinensis L. Osbeck, cv. Valencia, and Citrus limonia Osbeck, cv. Rangpur lime were used for anatomical and histochemical observations, callus samples from cultures in multiplication medium, in embryo induction medium, and somatic embryos in different stages of development were collected. Callus and embryo samples were also collected for analysis of gene expression through in situ hybridization. The anatomical and histochemical analysis showed differences between Rangpur lime and Valencia callus cultures. The in situ hybridization results evidenced the expression of the gene AtSERK1 in cultures of both citrus species, and also in both culture conditions: multiplication medium, with sucrose, and embryo induction medium, with maltose, indicating that the embriogenic potential is already installed in the callus cultures in multiplication medium. The results also lead to the conclusion that the gene is conserved between Arabidopsis thaliana and Citrus. Experiments aiming to synchronize the somatic embryogenesis formation in C. sinensis, cv. Valencia, were installed testing the effect of cold, desiccation and cell cluster size on somatic embryo formation. For that, callus cultures of ‘Valência’ sweet orange were cultivated in liquid medium in an orbital shaker, at 200 rpm, for 24h, and sieved through the following screens: 150 µm (P1), 300 µm (P2) and 600 µm (P3). The cell aggregates were then exposed to cold (4 o C, for four weeks, in the dark) and desiccation (27 o C, in Petri plates without culture medium, six days, in the dark) treatments, and cultured in incubators at 26 ± 1 o C and 300 lux of light intensity. The results lead to the conclusion that the separation of cultures in clusters of different sizes and the stress treatments were effective for synchronization and embryogenesis frequency. The size of cell clusters was the most important factor.

embriogênese somática

expressão gênica

gene expression

laranja

lemon

limão

marcador molecular.

molecular marker.

orange

somatic embryogenesis

Desenvolvimento embrionário e do arilo em maracujá azedo (Passiflora edulis f. flavicarpa) e maracujá doce (Passiflora alata L.) / Embryo and aril development in yellow passionfruit (Passiflora edulis f. flavicarpa) and sweet passionfruit (Passiflora alata L.)

Silveira, Sylvia Rodrigues da

30 September 2014

O gênero Passiflora é o maior gênero da família Passifloraceae, que compreende mais de 500 espécies, a maioria originária de regiões neotropicais, sendo centenas distribuídas pela América Latina. Algumas dessas espécies apresentam importância econômica na produção de fruta in natura, suco concentrado, uso ornamental e medicinal com propriedades sedativas. Estudos do desenvolvimento reprodutivo e do fruto de espécies de Passiflora são fundamentais para melhor compreensão de aspectos do desenvolvimento que possam contribuir para a produção agronômica e compreensão da evolução de estruturas florais presentes em espécies desta família. A importância das sementes para a sua propagação, para estudos taxonômicos e a presença do arilo, estrutura de interesse fundamental para a comercialização de frutos e produção de suco em espécies desse gênero, estimulou a elaboração de um estudo comparativo entre duas espécies de interesse comercial, P. edulis e P alata, associando o estudo de características morfoanatômicas e moleculares. O presente projeto teve como objetivo caracterizar o desenvolvimento do embrião zigótico e arilo de Passiflora edulis Sims e Passiflora alata Curtis. Flores foram manualmente polinizadas e amostras coletadas periodicamente após a polinização, visando à obtenção de sementes em diferentes fases do desenvolvimento embrionário e do arilo. Primórdios do arilo são observados em pré-antese, quando o saco embrionário é organizado. Células epidérmicas na base do funículo sofrem divisões periclinais formando uma borda em torno da rafe. O desenvolvimento do primórdio do arilo é interrompido, observando-se a reativação de divisões celulares e o arilo recomeça o desenvolvimento em uma estrutura multicelular ao redor da semente em desenvolvimento. Aos 14 dias após a polinização o arilo já cobre dois terços da semente, crescendo rapidamente até a semente ser recoberta totalmente, desde o funículo, até o polo calazal. O endosperma é nuclear e seu desenvolvimento se inicia logo após a fertilização, através de divisões sucessivas, formando um sincício ao redor do proembrião, simultaneamente à diminuição tamanho do nucelo. A celularização do endosperma, com a deposição de paredes celulares é observada aproximadamente 20 dias após a polinização. A embriogênese se inicia com a primeira divisão do zigoto, observada aos 7 dias após a polinização. Essa primeira divisão é transversal dividindo o zigoto em duas células, assimetricamente. A célula apical sofre sucessivas divisões que levam a estádios subsequentes de desenvolvimento do embrião, tais como, 4-8 células, globular, coração e torpedo. Aproximadamente 30 dias após a polinização o embrião atinge o estádio cotiledonar e a partir de então apenas aumenta em tamanho consumindo o endosperma e ocupando seu espaço na semente. Essas observações permitiram que fossem definidos dois estádios específicos do desenvolvimento do arilo para futura captura por microdissecção a laser. A caracterização anatômica do desenvolvimento do embrião e do arilo em ambas as espécies subsidia o estabelecimento de estádios específicos do desenvolvimento que podem servir como alvos para estudos moleculares nessas espécies de Passiflora / Passiflora is the largest genus in Passifloraceae and most of the commercially used species develop an aril around the seed, which is commercially important for fresh fruit consumption, and concentrate juice. Reproductive developmental studies associating morphoanatomical and molecular characteristics are essential for a better understanding of particularities of this genus. The present project aimed to characterize the development of Passiflora edulis Sims and Passiflora alata Curtis zygotic embryo and aril. Pollination of flowers were done manually, fruits and ovaries were collected at regular intervals after pollination and processed for scanning and light microscopy, for analysis of embryos and aril in different stages of development. Aril primordium is observed in pre-anthesis when the embryo sac is organized. Epidermic cells at the base of the funiculus undergo periclinal divisions forming a rim surrounding the raphe. Aril development is arrested until after fertilization when cell divisions are reactivated and the aril resume development into a multicellular structure surrounding the developing seed from the funicle towards the chalazal end. At approximately 14 days after pollination the aril already covers two thirds of the seed, and grows rapidly until the whole seed is covered. The endosperm is nuclear and starts developing soon after fertilization through successive divisions forming a syncytium mostly at the chalazal region, and around the developing embryo, replacing the nucellus. Cell walls are formed and the endosperm begins cellularization approximately 20 days after pollination. Embryogenesis initiates with the first division of the zygote, approximately 7 days after pollination. This first cell division is transversal and asymmetrical; the apical cell undergoes successive divisions leading to the subsequent stages of embryo development such as 4- and 8-celled, globular, heart-shaped, torpedo. Approximately 30 days after pollination, the embryo reaches the cotyledonary stage and thereafter grows only in size, consuming the endosperm and occupying its space in the seed. The first division of the zygote was observed around seven days after pollination (DAP), with the mature embryo formed approximately 30 DAP. Initial development of the aril primordium is observed at the ovule basal region, before anthesis/pollination. Embryo and aril development occurs simultaneously. These observations allowed for the definition of two specific stages of aril development for laser-capture-microdissection and further molecular analysis aiming at the evaluation of the molecular basis of aril differentiation in Passiflora. The morphoanatomical characterization of embryo and aril development in these species will serve as a source of information for the definition of specific developmental stages, which can be targets for molecular studies in Passiflora

Embriogênese zigótica

Laser microdissection

Microdissecção a laser

Morfoanatomia

Morphoanatomy

Ontogênese

Ontogeny

Passifloraceae

Passifloraceae

Seed

Semente

Zygotic embryogenesis

An improved tissue culture and transformation system for switchgrass (Panicum virgatum L.)

Burris, Jason Neil

01 December 2010

Switchgrass (Panicum virgatum), a summer perennial grass native to North America, is currently being explored for its potential use in the production of biofuels. With these interests, genetic manipulation of switchgrass to produce plants that are easier to digest, have an increased resistance to diseases and stresses, and maintain viability longer in the field are required. Therefore, it was necessary to develop a reliable and efficient tissue culture system for the transformation of switchgrass. Current switchgrass tissue culture requires months for regeneration of transformants with relatively poor transformation efficiencies and are limited to derivatives of a single variety, Alamo. We have developed a tissue culture system, utilizing a novel media, LP9, which has demonstrated decreased time to the production of whole transgenic plants and with an increased efficiency. LP9 is not an MSO-based tissue culture system. It is comprised of both N6 macroelements and B5 microelements with the auxin, 2,4-D and does not include any cytokinin. After just 1 month on LP9 media, callus can be selected and used for Agrobacterium tumefaciens-mediated transformation or particle bombardment, and plants can be regenerated within 3 weeks of callus initiation. Our system is unique to previously explored MSO-based systems in that it is optimized for the production of type II callus, which has been shown to produce higher transformation efficiencies in other monocots. We have increased the transformation efficiency of switchgrass from to up to 4% to 34% efficiency by selecting for this type of callus.

Biotechnology

Bioenergy feedstock

Biofuels Callus

Media

Somatic embryogenesis

Tissue culture

Transformation

Plant Breeding and Genetics

Determination of the role and regulation of matrix metalloproteinase-25 during mouse secondary palate formation

Brown, Graham Douglas

06 August 2009

Development of the secondary palate (SP) is a complex event despite the small area it encompasses. Problems with SP development can lead to a cleft palate, which is one of the most common birth disorders. The matrix metalloproteinases (MMPs) are required for proper SP development, but a functional role for any one of them remains unknown. MMP-25 is a candidate MMP to have a functional role in SP formation as genetic scans of the DNA of human cleft palate patients indicate a common mutation at a region upstream of the Mmp-25 gene. The purpose of this thesis is to investigate gene expression of Mmp-25 in the developing mouse SP, whether it has a functional role in mouse SP development and begin to identify factors potentially upstream of Mmp-25 expression.<p> Mmp-25 mRNA and protein is found at all SP developmental stages in mice with highest expression at embryonic day (E) 13.5 when analyzed by quantitative real-time PCR and western blotting. Immunohistochemistry localizes MMP-25 protein primarily to the plasma membranes of palate shelf epithelial cells with secondary expression in apical mesenchymal cells. Mmp-25 knockdown with siRNA in palatal cultures resulted in a significant decrease in palate shelf fusion and persistence of the medial edge epithelium in vitro. Mmp-25 mRNA and protein levels are significantly decreased in vitro when cultured palate shelves are incubated in growth medium with 5 ìg/ml of a TGFâ3-neutralizing antibody. Mmp-25 gene expression is highest at E12.5 and E13.5, which corresponds to increasing palate shelf growth downward alongside the tongue. Immunohistochemistry localized MMP-25 protein expression predominantly in the epithelium of the palate shelves, but also in areas of the mesenchyme that were immediately adjacent to the epithelium and apical in location. Knockdown of Mmp-25 expression resulted in palate shelf fusion being impaired and significant medial edge epithelium remaining in contacted areas. Bioneutralization of TGFâ3 resulted in a significant decrease in Mmp-25 gene expression. These data suggest a functional role for MMP-25 in mouse SP development by removing extra-cellular matrix barriers to increased palate shelf growth and place its expression downstream of TGF-â3 signaling. This is the first research to present a role for a single MMP in mouse SP development.

Embryogenesis

cleft palate

secondary palate

matrix metalloproteinase-25

extra-cellular matrix

Determination of the role and regulation of matrix metalloproteinase-25 during mouse secondary palate formation

Brown, Graham Douglas

06 August 2009

Development of the secondary palate (SP) is a complex event despite the small area it encompasses. Problems with SP development can lead to a cleft palate, which is one of the most common birth disorders. The matrix metalloproteinases (MMPs) are required for proper SP development, but a functional role for any one of them remains unknown. MMP-25 is a candidate MMP to have a functional role in SP formation as genetic scans of the DNA of human cleft palate patients indicate a common mutation at a region upstream of the Mmp-25 gene. The purpose of this thesis is to investigate gene expression of Mmp-25 in the developing mouse SP, whether it has a functional role in mouse SP development and begin to identify factors potentially upstream of Mmp-25 expression.<p> Mmp-25 mRNA and protein is found at all SP developmental stages in mice with highest expression at embryonic day (E) 13.5 when analyzed by quantitative real-time PCR and western blotting. Immunohistochemistry localizes MMP-25 protein primarily to the plasma membranes of palate shelf epithelial cells with secondary expression in apical mesenchymal cells. Mmp-25 knockdown with siRNA in palatal cultures resulted in a significant decrease in palate shelf fusion and persistence of the medial edge epithelium in vitro. Mmp-25 mRNA and protein levels are significantly decreased in vitro when cultured palate shelves are incubated in growth medium with 5 ìg/ml of a TGFâ3-neutralizing antibody. Mmp-25 gene expression is highest at E12.5 and E13.5, which corresponds to increasing palate shelf growth downward alongside the tongue. Immunohistochemistry localized MMP-25 protein expression predominantly in the epithelium of the palate shelves, but also in areas of the mesenchyme that were immediately adjacent to the epithelium and apical in location. Knockdown of Mmp-25 expression resulted in palate shelf fusion being impaired and significant medial edge epithelium remaining in contacted areas. Bioneutralization of TGFâ3 resulted in a significant decrease in Mmp-25 gene expression. These data suggest a functional role for MMP-25 in mouse SP development by removing extra-cellular matrix barriers to increased palate shelf growth and place its expression downstream of TGF-â3 signaling. This is the first research to present a role for a single MMP in mouse SP development.

Embryogenesis

cleft palate

secondary palate

matrix metalloproteinase-25

extra-cellular matrix

Changes in abscisic acid concentration during zygotic embryogenisis in loblolly pine (Pinus taeda) as determined by indirect ELISA

Kapik, Rene Howard

01 January 1994

see pdf

Plant hormones

Measurement

Abscisic acid

Enzyme-linked immunosorbent assay

Loblolly pine

Somatic embryogenesis

Identification, isolation, expression analysis and molecular characterization of nine genes key to late embryogenesis in Loblolly pine

Jones, Brande

22 January 2011

A basic understanding of the molecular events occurring during zygotic embryogenesis is required to fully understand how and why only a very small percentage of somatic embryos develop past the late embryogeny phase of embryogenesis. In this work, we have identified genes that have been demonstrated to be required for late embryonic development in the model plant system Arabidopsis thaliana. These genes were subsequently isolated and cloned from Loblolly pine embryos. These isolated clones were sequenced and analyzed to reveal significant homology to the known Arabidopsis ABA responsive genes ABI3, ABI4, and ABI5. Expression analyses of all three genes were completed, and compared to reported data of ABA accumulation, as well as, expression of other ABA responsive genes during the same stages of embryogenesis. Six putative root development genes were isolated and cloned from Loblolly pine embryos. These isolated clones were sequenced and analyzed to reveal significant homology to the known Arabidopsis root development genes WOODENLEG, SHORT ROOT, SCARECROW, HOBBIT, BODENLOS, and MONOPTEROS. Full-length cDNAs were isolated and cloned for WOODENLEG, SHORT ROOT, SCARECROW and BODENLOS. Expression analyses of all six genes were completed throughout mid to late embryogenesis in Loblolly pine.

Plant genetics

Somatic embryogenesis

Root development

Arabidopsis

Arabidopsis thaliana

Loblolly pine

Roots (Botany) Development

Selenium redox cycling isolation and characterization of a stimulatory component from tissue of loblolly pine for multiplication of somatic embryos; development of an assay to measure l-phenylalanine concentration in blood plasma /

DeSilva, Veronica

January 2007

Thesis (Ph.D)--Chemistry and Biochemistry, Georgia Institute of Technology, 2007. / Committee Chair: Sheldon May; Committee Members: Nicholas Hud, Stanley Pollock, James Powers, and Gerald Pullman. Part of the SMARTech Electronic Thesis and Dissertation Collection.

IDENTIFICATION AND CHARACTERIZATION OF PROTEINS THAT INTERACT WITH AGAMOUS-LIKE 15 (AGL15), A MADS-DOMAIN TRANSCRIPTION FACTOR THAT PREFERENTIALLY ACCUMULATES IN THE PLANT EMBRYO

Hill, Kristine

01 January 2007

AGAMOUS-Like 15 (AGL15) encodes a MADS-domain transcription factor that is preferentially expressed in the plant embryo, and may function as a regulator in embryonic developmental programs. A number of direct downstream targets of AGL15 have been identified, and while some of these target genes are induced in response to AGL15, others are repressed. Additionally, direct target genes have been analyzed that exhibit strong association with AGL15 in vivo, yet in vitro, AGL15 binds only weakly. Taken together these data suggest that AGL15 may form heterodimers, or ternary complexes with other proteins, thus modulating the specificity and function of AGL15 in planta. Yeast two-hybrid screens were undertaken to identify novel proteins able to interact with AGL15, and a number of interesting and potentially biologically important AGL15-interacting partners are reported here. These include members of a histone deacetylase complex, a COLD SHOCK DOMAIN (CSD)-containing protein, a Khomology domain/CCCH type zinc finger containing protein, a bZIP transcription factor, a homeobox-leucine zipper protein, a LATERAL ORGAN BOUNDARIES (LOB) domain containing protein, and an Agenet domain containing protein. Interactions between AGL15 and other MADS domain factors that are expressed in embryonic tissue, including SEPALLATA 3 (SEP3) have also been indentified. The regions of AGL15 that mediate interactions with the aforementioned proteins were mapped, and the capacity of these proteins to interact with other plant MADS-domain proteins tested. It is reported herein that AGL15 interacts with members of the SWI-INDEPENDENT 3/HISTONE DEACETYLASE (SIN3/HDAC) complex, and that AGL15 target genes are also responsive to an AGL15 interacting protein that is also a member of this complex, SIN3 ASSOCIATED POLYPEPTIDE OF 18 KD (SAP18). AGL15 can repress transcription in vivo, and a region essential to this repressive function contains an LxLxL motif that is conserved among putative orthologs of AGL15. What is more, the aforementioned motif mediates the association of AGL15 with SAP18 in yeast two-hybrid assays, thus providing a possible mechanism for explaining how role AGL15 regulates gene expression via recruitment of a histone deacetylase complex.

Influence of micropropagation through somatic embryogenesis on somaclonal variation in coffee (Coffea arabica) : assessment of variations at the phenotypical, cytological, genetic and epigenetic level

Bobadilla Landey, Roberto

09 July 2013

Influence of micropropagation through somatic embryogenesis on somaclonal variation in coffee (Coffea arabica): assessment of variations at the phenotypical, cytological, genetic and epigenetic level Somaclonal variation (SV) is a major concern in all micropropagation systems. It is described as the phenotypic variation displayed in in vitro-derived regenerants and it is believed to be originated from a large array of genetic and epigenetic mechanisms. Highly productive Coffea arabica hybrids are clonally disseminated in Meso-American region through somatic embryogenesis (SE). The objective of the present work in coffee is to evaluate the trueness-to-type of SE and to understand the mechanisms involved in SV. We assessed the variations in the propagated plants at the phenotypic, cytogenetic, genetic (mutations/AFLP, genetic transposition/S-SAP) and epigenetic (methylation/MSAP) level by using two complementary approaches. First, with 2 hybrids we studied industrial culture conditions expected to be weakly mutagenic thanks to the combined use of short term proliferation period (6 months) and low auxin supply (0-1.4 µM 2,4-D). Two proliferation systems i.e. secondary embryogenesis and embryogenic suspensions were compared, the latter being more productive and economic. AFLP and MSAP molecular analyses on 145 somatic seedlings showed that genetic and epigenetic polymorphisms between mother plants and emblings were extremely low, i.e. ranges of 0-0.003% and 0.07-0.18% respectively, with no significant difference between the proliferation systems. For the two hybrids tested, massive phenotypic observations in nursery and field plots showed very low levels of SV (0.9% from 800,000 plants). Cytological analysis showed abnormal chromosome numbers (41-43, 45) in most of coffee somaclonal variants and normal numbers (44) in phenotypically normal plants. Stressful experimental conditions were also applied by using extended proliferation periods (4, 12 and 27 months) for three independent embryogenic lines established for the Caturra var. in presence of high growth regulator concentrations (4.5 μM 2,4-D, 17.8 μM 6-BA) to understand the mechanisms of culture ageing on SV. The proliferation time strongly affected the SV frequency among the 180 regenerated plants and in a highly similar way with the three embryogenic lines. No variant was found after 4 months proliferation although 30% and 94% phenotypic variants were observed in plants derived from 12 and 27 month-old cultures, respectively. Regardless the culture age and the embryogenic line, no polymorphisms were found in the 124 plants analyzed and very limited methylation changes with MSAP markers (0.049-0.087%). However, similarly to plants derived from industrial conditions, phenotypic variants systematically showed abnormal chromosome numbers and normal plants systematically showed normal numbers. This work showed that SE based on embryogenic suspensions is reliable for true-to-type propagation of selected C. arabica varieties. It also demonstrated the importance of culture age on SV and hence the non random nature of this phenomenon. The genetic and epigenetic alterations are particularly limited during SE. The main change in most of phenotypic variants was aneuploidy showing that mitotic aberrations play a major role in SV in coffee.

[SDV:BV] Life Sciences/Vegetal Biology

Somatic embryogenesis

Coffee

Genome