ABSTRACT
El trasplante dentario es una opción terapéutica para reemplazar un órgano dental perdido, causado por un proceso carioso extenso, agenesia, trauma-tismos o iatrogenias. Este procedimiento quirúrgico traslada un órgano dental íntegro desde un alveolo donante hacia su lecho receptor; para lo cual debe poseer ciertas características que permitan tener un pronóstico favorable a largo plazo. El presente estudio describe la evolución de un trasplante dental autólogo realizado hace 14 años a una paciente que acudió a la consulta para valoración del órgano den-tal 4.7, el que presentó un pronóstico desfavorable, por lo cual se realizó exodoncia y trasplante inme-diato del diente vital 4.8 al alveolo del órgano dental 4.7. Tras la planificación quirúrgica se procedió con la intervención conservando la vitalidad pulpar del diente a ser trasplantado, se realizó control clínico y radiográfico a los 15 días, 30 días, 6 meses, 1 año, 5 años y 14 años, en el que se observó conservación del paquete vasculonervioso y ligamento periodontal del órgano dental; a su vez se pudo evidenciar rizo-génesis en el diente trasplantado y un aumento de la altura del proceso alveolar, mediante mediciones realizadas en Auto CAD 2023 (AU)
Tooth transplantation is a therapeutic option to re-place a lost dental organ, caused by an extensive carious process, agenesis, trauma or iatrogenesis. This surgical procedure transfers a complete den-tal organ from a donor alveolus to its recipient bed; for which it must have certain characteristics that allow it to have a favorable long-term prognosis. The present study describes the evolution of an autolo-gous dental transplant carried out 14 years ago to a female patient who attended the consultation for evaluation of the dental organ 4.7, the same one that presented an unfavorable prognosis, for which an extraction and immediate transplantation of the 4.8 vital tooth was performed to the alveolus of the den-tal organ 4.7. After surgical planning, the intervention was carried out preserving the pulpal vitality of the tooth to be transplanted; clinical and radiographic control was performed at 15 days, 30 days, 6 months, 1 year, 5 years and 14 years, in which preservation of the vascular-nervous bundle and periodontal liga-ment of the dental organ was observed; in turn, rhizo-genesis in the transplanted tooth and an increase in the height of the alveolar process could be evidenced, through measurements made in Auto CAD 2023 (AU)
Subject(s)
Humans , Female , Adult , Tooth/diagnostic imaging , Transplantation, Autologous/methods , Odontogenesis/physiology , Prognosis , Radiography, Dental/methods , Radiography, Panoramic , Follow-Up StudiesABSTRACT
The Gymnocalycium genus includes numerous highly valued species in the ornamental plant market and their propagation is usually carried out using traditional methods. However, there is a lack of information regarding the efficiency of micropropagation through in vitro tissue culture techniques on these species. So, with the objective of establishing an efficient micropropagation protocol that allows for optimizing the plant obtaining processes, the morphogenic potential of Gymnocalycium cv. Fancy has been studied in this work. For this purpose, plants of two different sizes (medium and large) were used as the starting material, from which three types of explants were obtained (apex, central discs and bases). The effect of three plant growth regulators (6-Benzylaminopurine, BAP; Kinetin, KIN; and Thidiazuron, TDZ) at three different concentrations each were studied, and the number of generated shoots, the frequency of appearance of callogenesis and rhizogenesis by explant and condition were assessed. An efficient protocol based on the use of KIN at 4 µM and central discs as a starting explant was developed. Moreover, the obtained sprouts rooted successfully (especially using BAP at 2 µM), and their subsequent acclimatization was very effective. Furthermore, emergence of a new morphotype is presented, that has not previously been described.
ABSTRACT
Adventitious root formation is defined as the formation of new roots on above-ground plant parts and is considered crucial for the survival of a plant under harsh environmental conditions (i.e., flooding, salt stress, and other abiotic stresses) as well as in the nursery industry. Clonal propagation is based on the ability of a plant part to grow and generate a completely new plant, genetically identical to the mother plant, where the plant part came from. Nurseries exploit this potential by multiplying millions of new plants. Most nurseries use cuttings to achieve that, through the induction of adventitious root formation. Many factors have been implicated in the capacity of a cutting to root, with the major role being played by auxins. During the last few decades, intense interest has emerged in the role of other potential rooting co-factors, such as carbohydrates, phenolics, polyamines, and other plant growth regulators, as well as signal molecules, such as reactive oxygen and nitrogen species. Among the latter, hydrogen peroxide and nitric oxide have been found to play significant roles in adventitious root formation. Their production, action, and general implication in rhizogenesis are discussed in this review, in terms of interaction with other molecules and signaling.
ABSTRACT
Introdução: A revascularização pulpar é uma terapêutica que visa regenerar parte do complexo dentino pulpar, proporcionando a continuidade do desenvolvimento radicular, sanando a fragilidade e propensão a fratura que a apicificação apresentava. É um tratamento direcionado a dentes diagnosticados com rizogênese incompleta. Entretanto, a possibilidade de realização da técnica em dentes maduros tem sido alvo de pesquisas e estudo. Objetivo: O objetivo deste estudo, é apresentar através da revisão de literatura e caso clínico, os benefícios dos procedimentos endodônticos regenerativos (REPs), em dentes jovens e maduros, em relação à apicificação. Metodologia: O estudo é uma revisão de literatura, desenvolvida através de pesquisa exploratória e realizada uma abordagem qualitativa. Para a coleta de dados, foi aplicada a técnica de análise documental e revisão bibliográfica consultando PUBMED, Scielo, Google Acadêmico e monografias acadêmicas. O caso clínico foi realizado de acordo com o protocolo atualizado pela AAE em 2016. Discussão: A revascularização pulpar tem mostrado ser um tratamento promissor na endodontia, é preconizada a desinfecção e medicação intracanal, já que não pode haver instrumentação mecânica. Os agentes irrigadores devem ser bactericidas, bacteriostáticos e devem ter baixo teor de toxicidade, já a medicação intracanal deve ter papel inibidor em bactérias gram positivas e gram negativas. Conclusão: A apicificação mesmo com o uso de MTA, que não exige trocas excessivas de medicações, não sana as necessidades que um dente com rizogênese incompleta requer. Sendo assim, a revascularização foi eleita o tratamento de melhor prognóstico para dentes jovens e necrosados. O caso clínico demonstrou qualidade moderada, no tratamento regenerativo em um dente maduro com reabsorção externa, abrindo novas perspectivas para os (REPs)(AU)
Introduction: Pulp revascularization is a therapy that aims to regenerate part of the pulp dentin complex, providing continuity of root development, remedying the fragility and propensity to fracture that apexification presented. It is a treatment aimed at teeth diagnosed with incomplete rhizogenesis. However, the possibility of performing the technique on mature teeth has been the subject of research and study. Objective: The aim of this study is to present, through literature review and clinical case, the benefits of regenerative endodontic procedures (REPs), in young and mature teeth, in relation to apexification. Methodology: The study is a literature review, developed through exploratory research and carried out a qualitative approach. For data collection, the technique of document analysis and bibliographic review was applied, consulting PUBMED, Scielo, Academic Google and academic monographs. The clinical case was performed according to the protocol updated by the SEA in 2016. Discussion: Pulp revascularization has shown to be a promising treatment in endodontics, intracanal disinfection and medication is recommended, as there can be no mechanical instrumentation. Irrigating agents must be bactericidal, bacteriostatic and must have a low level of toxicity, whereas intracanal medication must have an inhibiting role in gram positive and gram negative bacteria. Conclusion: Apexification, even with the use of MTA, which does not require excessive medication changes, does not meet the needs that a tooth with incomplete rhizogenesis requires. Therefore, revascularization was chosen as the treatment with the best prognosis for young and necrotic teeth. The clinical case demonstrated moderate quality in regenerative treatment in a mature tooth with external resorption, opening new perspectives for (REPs)(AU)
Subject(s)
Humans , Female , Middle Aged , Root Canal Therapy , Dental Pulp Necrosis/therapy , Regenerative Endodontics , Dental Pulp Necrosis , Dental Pulp , ApexificationABSTRACT
Bougainvillea plants have important ornamental and cultural value, as well as applications, for example, in improving the ecological environment, sterilization and as anti-virals in medicines, etc. Among many varieties, Bougainvillea buttiana 'Miss Manila' is more popular in landscape applications in southern China because of its excellent qualities. However, because of the difficulty of sexual reproduction, low rooting rate of asexual propagation cuttings and low temperature tolerance, its large-scale development is limited. For easy, quick and mass multiplication of such cultivars, tissue culture technique can be put to use. In this study, nodal segments of 'Miss Manila' were used as explants, and a single-factor experiment was carried out with a variety of plant growth regulators and concentrations to establish and optimize a complete tissue culture propagation system. The results showed that the best disinfestation was 75% ethanol treatment for 0.5 min + 0.1% HgCl2 treatment for 9 min, and the survival rate was 86.83%. The best shoot initiation formula was MS + 6-BA (2.5 mg/L) + IBA (0.2 mg/L), and the induction rate was 95.14%. The best formula for shoot proliferation was MS + 6-BA (1.5 mg/L) + NAA (0.1 mg/L), and the proliferation coefficient was 3.13. The best rooting culture formula was 1/2 MS + IBA (2.0 mg/L), and the rooting rate was 81.97%. The survival rate for plantlet refining and transplanting was 93.33%. In this study, a relatively efficient regeneration system for the tissue culture and rapid propagation of Bougainvillea buttiana 'Miss Manila' was established to address the problems of rooting and transplanting of this variety, to benefit research on the industrialized production and regeneration systems of this variety, and to provide a reference for the tissue culture of other varieties of Bougainvillea or other woody plants.
ABSTRACT
KEY MESSAGE: The interaction between exogenous IBA with sucrose, light and ventilation, alters the expression of ARFs and Aux/IAA genes in in vitro grown Carica papaya plantlets. In vitro papaya plantlets normally show low rooting percentages during their ex vitro establishment that eventually leads to high mortality when transferred to field conditions. Indole-3-butyric acid (IBA) auxin is normally added to culture medium, to achieve adventitious root formation on in vitro papaya plantlets. However, the molecular mechanisms occurring when IBA is added to the medium under varying external conditions of sugar, light and ventilation have not been studied. Auxin response factors (ARF) are auxin-transcription activators, while auxin/indole-3-acetic acid (Aux/IAA) are auxin-transcription repressors, that modulate key components involved in auxin signaling in plants. In the present study, we identified 12 CpARF and 18 CpAux/IAA sequences in the papaya genome. The cis-acting regulatory elements associated to those CpARFs and CpAux/IAA gene families were associated with stress and hormone responses. Furthermore, a comprehensive characterization and expression profiling analysis was performed on 6 genes involved in rhizogenesis formation (CpARF5, 6, 7 and CpAux/IAA11, 13, 14) from in vitro papaya plantlets exposed to different rhizogenesis-inducing treatments. In general, intact in vitro plantlets were not able to produce adventitious roots, when IBA (2 mg L-1) was added to the culture medium; they became capable to produce roots and increased their ex-vitro survival. However, the best rooting and survival % were obtained when IBA was added in combination with adequate sucrose supply (20 g L-1), increased light intensity (750 µmol photon m-2 s-1) and ventilation systems within the culture vessel. Interestingly, it was precisely under those conditions that promoted high rooting and survival %, where the highest expression of CpARFs, but the lowest expression of CpAux/IAAs occurred. One interesting case occurred when in vitro plantlets were exposed to high levels of light in the absence of added IBA, as high rooting and survival occurred, even though no exogenous auxin was added. In fact, plantlets from this treatment showed the right expression profile between auxin activators/repressors genes, in both stem base and root tissues.
Subject(s)
Carica , Carica/genetics , Carica/metabolism , Indoleacetic Acids/metabolism , Indoleacetic Acids/pharmacology , Indoles/metabolism , Indoles/pharmacology , Sucrose/pharmacology , Transcription Factors/genetics , Transcription Factors/metabolismABSTRACT
Despite the importance of storage root (SR) organs for cassava and the other root crops yield, their developmental origin is poorly understood. Here we use multiple approaches to shed light on the initial stages of root development demonstrating that SR and fibrous roots (FR) follow different rhizogenic processes. Transcriptome analysis carried out on roots collected before, during and after root bulking highlighted early and specific activation of a number of functions essential for root swelling and identified root-specific genes able to effectively discriminate emerging FR and SR. Starch and sugars start to accumulate at a higher rate in SR before they swell but only after parenchyma tissue has been produced. Finally, using non-destructive computed tomography measurements, we show that SR (but not FR) contain, since their emergence from the stem, an inner channel structure in continuity with the stem secondary xylem, indicating that SR derive from a distinct rhizogenic process compared with FR.
Subject(s)
Manihot , Gene Expression Regulation, Plant , Manihot/genetics , Plant Roots , Starch , XylemABSTRACT
In the present study, the effect of a commercial extract of the seaweed Ascophyllum nodosum on in vitro micropropagation, shoot regeneration, and rhizoghenesis were studied in Nicotiana benthamiana and Prunus domestica. Results showed that the MS medium supplemented with various concentrations of the Ascophyllum extract (5, 10, 50, and 100 mg L-1) significantly enhanced the number of regenerated buds from N. benthamiana leaf discs to the conventional MS regenerating medium. Increases ranged from 3.5 to 6.5 times higher than the control. The effect of the Ascophyllum extract on N. benthamiana micropropagation was assessed through the measurement of some plant growth parameters. Results showed that the extract alone could not replace the micropropagation medium since shoot length, shoot diameter, root length, and leaf area were significantly reduced. However, its combination with a half-strength MS medium enhanced these parameters. Its effect was also evaluated on regeneration from plum hypocotyl slices. When added to the shoot regeneration medium without any plant growth regulators, the Ascophyllum extract alone could induce shoot regeneration. However, the percentage of bud regeneration and number of regenerated buds were lower than with the conventional shoot regeneration medium containing complete growth regulators. In contrast, the Ascophyllum extract drastically promoted rhizogenesis from plum hypocotyl slices. These results pave the way for the possible use of A. nodosum extracts in in vitro mass propagation of higher plants.
ABSTRACT
Argania spinosa (L.) Skeels is an endangered plant species endemic to Morocco. In recent years, attempts to develop in vitro regeneration systems for this species were made. However, rooting and acclimatization of in vitro plants have been a bottleneck for successful propagation. In the present study, the effects of different concentrations of auxins, putrescine, silver nitrate (AgNO3) and ammonium nitrate on the in vitro rooting of adventitious shoots of two argan genotypes "Mejji" and "R'zwa", were evaluated. The highest rooting percentages (86.6% in "Mejji" and 84.4% in "R'zwa") were observed on Murashige and Skoog (MS) medium modified by reducing the ammonium nitrate concentration and supplemented with 1.5 mg L-1 indole-3-butyric acid (IBA), 0.5 mg L-1 1-naphthalene acetic acid (NAA), 2 mg L-1 AgNO3 and 160 mg L-1 putrescine. This medium resulted in the development of a good root system after only 10 days of culture. Plantlet acclimatization was carried out using different substrate mixtures, and high survival rates (100%) were observed when the substrate contained either peat alone or a sand-peat mixture (1:1, w/w). The high percentages of rooting and acclimatization reported in the present study are of high importance for rapid and large-scale propagation of this endangered species.
ABSTRACT
BACKGROUND AND OBJECTIVES: Differences in dental maturation may affect the prognosis and clinical management of traumatized teeth. However, evaluation of the outcomes of dental trauma to the tooth and support structures in an in vivo model involves major methodological and ethical implications. Thus, the aim of the present study was to perform a three-dimensional finite element analysis of permanent maxillary central incisors in different stages of root development under different trauma settings. METHODS: The study factors included two trauma conditions (B, buccal; I, incisal) on upper permanent central incisors showing three different stages of root development (CR, complete rhizogenesis; IRA; incomplete rhizogenesis in the apical third of the root; and IRM, incomplete rhizogenesis in the middle third of the root) to yield six models. The complete rhizogenesis model was obtained with a cone-beam computed tomography examination of an extracted tooth. The two incomplete rhizogenesis models were modeled on the basis of similar examinations of patients. Trauma was simulated by applying a 300 N static surface to surface load on the incisal edge or perpendicular to the buccal surface of the tooth. The displacement and equivalent von Mises (σvM) stress values were obtained for alveolar bone, periodontal ligament, apical papilla, and dentin for the quantitative analysis. A σvM color-coded scale was used for qualitative analysis. RESULTS: The force direction had a greater influence on the stress than the root-formation stage. Buccal forces resulted in higher stress concentration in the bone and periodontal ligament, especially in B-CR. Lower stress was found on the periodontal ligament as the root formation progressed (decrease of 8% from B-IRA to B-CR and 11% from B-IRM to B-CR). The incomplete rhizogenesis models showed higher σvM stress peak values in dentin in comparison with complete rhizogenesis (increase of 52% from B-CR to B-IRA and 56% from B-CR to B-IRM). CONCLUSIONS: Buccal forces yielded greater stress values regardless of the stage of rhizogenesis. Teeth with fully formed roots showed a higher stress concentration in the alveolar bone and periodontal ligament in comparison with immature teeth, with the latter presenting high stresses in the tooth crown.
Subject(s)
Incisor , Tooth Crown , Finite Element Analysis , Humans , Incisor/diagnostic imaging , Maxilla/diagnostic imaging , Periodontal Ligament/diagnostic imaging , Stress, MechanicalABSTRACT
A protocol for the induction of hairy roots on somatic embryos of rhizoclones from Typha domingensis seedlings grown in hydroponic rhizotron systems was established for the first time. Rhizogenesis was induced through the agrotransformation of somatic embryos in oblong and scutellar states of development using the K599, LBA9402, and A4 strains of Agrobacterium rhizogenes. The transfection to the embryos was performed by cocultivation of rhizoclones on a Murashige and Skoog mineral medium at 50% strength (MS0.5), in the dark, at 28 ± 2 °C for 72 h. In contrast to nontransformed embryos that did not exhibit any root tissue, transformed embryos presented hairy roots that varied in number, length, and density depending on the bacterial strain, and K599 was the most effective strain. After analysis via optical microscopy, the transformed embryos were collected and transferred to fresh culture media supplemented with 400 mg mL-1 cefotaxime and 10 mg L-1 ascorbic acid. The efficiency of transformation and survival of the oblong and scutellar embryos were similar among the three bacterial strains. The results show that agrotransformation of somatic embryos of rhizoclones from T. domingensis is a novel and viable strategy for the generation of genetic transformants of Typha that have potential applications in bioremediation technologies.
ABSTRACT
Artificial intelligence (AI) models and optimization algorithms (OA) are broadly employed in different fields of technology and science and have recently been applied to improve different stages of plant tissue culture. The usefulness of the application of AI-OA has been demonstrated in the prediction and optimization of length and number of microshoots or roots, biomass in plant cell cultures or hairy root culture, and optimization of environmental conditions to achieve maximum productivity and efficiency, as well as classification of microshoots and somatic embryos. Despite its potential, the use of AI and OA in this field has been limited due to complex definition terms and computational algorithms. Therefore, a systematic review to unravel modeling and optimizing methods is important for plant researchers and has been acknowledged in this study. First, the main steps for AI-OA development (from data selection to evaluation of prediction and classification models), as well as several AI models such as artificial neural networks (ANNs), neurofuzzy logic, support vector machines (SVMs), decision trees, random forest (FR), and genetic algorithms (GA), have been represented. Then, the application of AI-OA models in different steps of plant tissue culture has been discussed and highlighted. This review also points out limitations in the application of AI-OA in different plant tissue culture processes and provides a new view for future study objectives. KEY POINTS: ⢠Artificial intelligence models and optimization algorithms can be considered a novel and reliable computational method in plant tissue culture. ⢠This review provides the main steps and concepts for model development. ⢠The application of machine learning algorithms in different steps of plant tissue culture has been discussed and highlighted.
Subject(s)
Artificial Intelligence , Plant Cells , Algorithms , Machine Learning , Neural Networks, ComputerABSTRACT
O traumatismo dentário acontece de maneira frequente, tendo maior prevalência em incisivos centrais, podendo ocorrer de várias formas, acometendo o tecido duro e o tecido de sustentação do dente. A severidade do trauma pode ocasionar um processo degenerativo ou uma lesão irreversível até a mortificação da polpa, por isso deve-se observar o estágio de desenvolvimento do dente para correta terapêutica diante de uma rizogênese completa ou incompleta. A necrose pulpar em um dente com ápice incompleto paralisa o seu processo de desenvolvimento o que torna necessário a realização da apicificação. O objetivo desse presente trabalho é relatar um caso clínico de traumatismo em um dente com rizogênese incompleta e a conduta terapêutica instituída para promover a apicificação do mesmo. Entretanto, Durante o tratamento foi um grande desafio promover o fechamento do ápice que fora paralisado após o trauma. Portanto, foi preciso realizar várias sessões de medicação intracanal com hidróxido de cálcio que é o material mais indicado para induzir a formação de barreira calcificada para fechamento completo do ápice(AU)
The dental trauma occurs frequently, having a higher prevalence in central incisors, and can occur in several ways, affecting the hard tissue and the tooth support tissue. The severity of the trauma can cause a degenerative process or an irreversible lesion until the mortification of the pulp, so the stage of development of the tooth must be observed for correct therapy in the presence of complete or incomplete rhizogenesis. Pulp necrosis in a tooth with an incomplete apex paralyzes its development process, which makes it necessary to perform the inoculation. The objective of this present work is to report a clinical case of trauma in a tooth with incomplete rhizogenesis and the therapeutic conduct instituted to promote the apicification of the same. However, during the treatment it was a great challenge to promote the closure of the apex that had been paralyzed after the trauma. Therefore, it was necessary to perform several intracanal medication sessions with calcium hydroxide, which is the most suitable material to induce the formation of a calcified barrier for complete closure of the apex(AU)
Subject(s)
Humans , Male , Adolescent , Tooth Injuries , Dental Pulp Necrosis , Tooth Apex/surgeryABSTRACT
Pinus massoniana is a recalcitrant tree species for rooting in vitro. We rejuvenated 26-year-old P. massoniana trees by successive grafting. Rooting rates of rejuvenated shoots were > 83.1% after rooting induction. We compared endogenous levels of indole-3-acetic acid (IAA), abscisic acid (ABA), gibberellins (GAs) and zeatin-riboside (ZR), and the rhizogenesis ability of axillary shoots of mature and rejuvenated materials in vitro, i.e., somaplants and grafts. Enhancement of the rooting ability of mature materials in vitro following somatic embryogenesis or repeated grafting onto juvenile rootstocks was accompanied by increased IAA and GAs levels, and by decreased ABA levels in scions used as starting material for micropropagation in vitro. Successive subcultures did not influence the rooting ability of shoots from untreated mature material. Rooting ability of shoots in vitro, however, gradually increased with subculture frequency during repeated subculturing in grafting materials. The IAA:ABA ratio in shoots in vitro after grafting five times, and consequently capable of root organogenesis, was higher than in shoots of untreated mature material incapable of root organogenesis in vitro. A high IAA:ABA ratio was detected in scions of somaplants that were capable of rooting in vitro despite subculture times. We found that the endogenous IAA:ABA ratio is a reliable marker for the recovery of root organogenesis in vitro after rejuvenating treatments for mature P. massoniana trees.
Subject(s)
Indoleacetic Acids/pharmacology , Pinus/growth & development , Plant Roots/drug effects , Trees/drug effects , Abscisic Acid/pharmacology , Isopentenyladenosine/analogs & derivatives , Isopentenyladenosine/pharmacology , Pinus/drug effects , Rejuvenation/physiologyABSTRACT
Melatonin (MEL) has been revealed as a phylogenetically conserved molecule with a ubiquitous distribution from primitive photosynthetic bacteria to higher plants, including algae and fungi. Since MEL is implicated in numerous plant developmental processes and stress responses, the exploration of its functions in plant has become a rapidly progressing field with the new paradigm of involvement in plants growth and development. The pleiotropic involvement of MEL in regulating the transcripts of numerous genes confirms its vital involvement as a multi-regulatory molecule that architects many aspects of plant development. However, the cumulative research in plants is still preliminary and fragmentary in terms of its established functions compared to what is known about MEL physiology in animals. This supports the need for a comprehensive review that summarizes the new aspects pertaining to its functional role in photosynthesis, phytohormonal interactions under stress, cellular redox signaling, along with other regulatory roles in plant immunity, phytoremediation, and plant microbial interactions. The present review covers the latest advances on the mechanistic roles of phytomelatonin. While phytomelatonin is a sovereign plant growth regulator that can interact with the functions of other plant growth regulators or hormones, its qualifications as a complete phytohormone are still to be established. This review also showcases the yet to be identified potentials of phytomelatonin that will surely encourage the plant scientists to uncover new functional aspects of phytomelatonin in plant growth and development, subsequently improving its status as a potential new phytohormone.
Subject(s)
Melatonin/metabolism , Plants/metabolism , Animals , Biodegradation, Environmental , Humans , Plant Growth Regulators/metabolism , Plant Immunity/physiology , Plants/immunologyABSTRACT
Objetivo: O objetivo deste artigo é apresentar o relato de um caso clínico de luxação extrusiva de dente permanente com rizogênese incompleta, onde não foi necessária a realização de intervenção endodôntica. Relato de caso: Paciente de 6 anos de idade compareceu ao serviço de urgência da Policlínica Odontológica da Universidade do Estado do Amazonas (UEA) para atendimento após queda durante atividade de lazer, apresentando traumatismo direto na boca. Foi informado durante a consulta inicial que o incidente havia ocorrido há cerca de três dias, e que o atendimento imediato logo após o trauma foi realizado em um Serviço de Pronto Atendimento, porém, nenhum tipo de procedimento na cavidade oral foi realizado. Após exames clínico e radiográfico observou-se que o dente 21 apresentava deslocamento parcial para fora do alvéolo dentário no sentido axial, com alteração da oclusão, dor local à palpação e mobilidade dentária. Foi realizada profilaxia da área afetada, e anestesia do dente luxado e tecidos adjacentes. O reposicionamento do dente foi realizado em seguida, pressionando-o e tracionando-o de forma suave e contínua até a sua correta posição dentro do alvéolo. A área afetada foi limpa com gaze estéril embebida em soro fisiológico, e foi instalada uma contenção rígida confeccionada com fio ortodôntico e resina composta. Conclusão: O reposicionamento da maneira adequada do dente traumatizado dentro do alvéolo dentário, num período de tempo hábil, seguido de sua proservação, permitiram a manutenção da vitalidade do tecido pulpar, e consequentemente, o desenvolvimento do segmento radicular.
Objective: The objective of this article is to present a clinical case of extrusive luxation of an immature permanent tooth, with no endodontic management. Case report: A 6-year-old patient was provided to emergency treatment at the State University of Amazonas, as a result of a fall, with a direct trauma to the mouth. It was informed during the initial consultation that the incidente has occurred three days after. Emergency examination had been carried out by an Emergency Service; however, any type of procedure in the oral cavity was performed in ths occasion. After clinical and radiographic examinations, it was observed that tooth 21 presented partial displacement from the alveolar socket in the axial direction, with occlusion alteration, local pain to palpation and dental mobility. Cleaning of the affected area and anesthesia of the dislocated tooth and adjacent tissues were performed. Then, tooth repositioning was performed by pressing and tracing it smoothly and continuously until its correct position within the alveolar socket. The affected area was cleaned with sterile gauze soaked in saline solution, and a rigid containment made of orthodontic wire and composite resin was installed. Conclusion: A proper repositioning of the traumatized tooth within the alveolar socket, followed by its clinical followup, allowed the pulp tissue to remain vital, and consequently, the complete development of the root portion
ABSTRACT
BACKGROUND: Juglans is a difficult-to-root tree. In the present study, we successfully rejuvenated stock plants by grafting and then burying them horizontally. RESULTS: Rooting rates of rejuvenated shoots were 98.1% 20 days after cutting. We recorded spatial and temporal variation in endogenous indole-3-acetic acid (IAA), abscisic acid (ABA), gibberellin A3 (GA3) and zeatin-riboside (ZR) under root induction. The four types of endohormones were mainly confined to the phloem sieve and companion cells (S&Cs) at the base of either rejuvenated or mature soft shoots. IAA and ABA levels were higher in rejuvenated shoots than in mature shoots, whereas the opposite was true for GA3 and ZR. During rooting induction, GA3 was the first hormone to be observed outside phloem S&Cs, followed by IAA, ABA and ZR. In rejuvenating soft shoots, IAA accumulated in the cross-sectional areas of the cambium and phloem, where root primordia were evident. CONCLUSIONS: The improvement in the rooting ability that was evident after rejuvenation most likely results a transformation of the plant to a juvenile form, from elevated IAA levels in phloem S&Cs and from a promotion of all four endohormones outside phloem S&Cs, in particular, from an accumulation of IAA in the cross-sectional areas of the cambium and phloem.
ABSTRACT
BACKGROUND: Plant melatonin appears to be a multi-regulatory molecule, similar to those observed in animals, with many specific functions in plant physiology. In recent years, the number of studies on melatonin in plants has increased significantly. One of the most studied actions of melatonin in plants is its effect on biotic and abiotic stress, such as that produced by drought, extreme temperatures, salinity, chemical pollution and UV radiation, among others. SCOPE: This review looks at studies in which some aspects of the relationship between melatonin and the plant hormones auxin, cytokinin, gibberellins, abscisic acid, ethylene, jasmonic acid and salicylic acid are presented. The effects that some melatonin treatments have on endogenous plant hormone levels, their related genes (biosynthesis, catabolism, receptors and transcription factors) and the physiological actions induced by melatonin, mainly in stress conditions, are discussed. CONCLUSIONS: Melatonin is an important modulator of gene expression related to plant hormones, e.g. in auxin carrier proteins, as well as in metabolism of indole-3-acetic acid (IAA), gibberellins, cytokinins, abscisic acid and ethylene. Most of the studies performed have dealt with the auxin-like activity of melatonin which, in a similar way to IAA, is able to induce growth in shoots and roots and stimulate root generation, giving rise to new lateral and adventitious roots. Melatonin is also able to delay senescence, protecting photosynthetic systems and related sub-cellular structures and processes. Also, its role in fruit ripening and post-harvest processes as a gene regulator of ethylene-related factors is relevant. Another decisive aspect is its role in the pathogen-plant interaction. Melatonin appears to act as a key molecule in the plant immune response, together with other well-known molecules such as nitric oxide and hormones, such as jasmonic acid and salicylic acid. In this sense, the discovery of elevated levels of melatonin in endophytic organisms associated with plants has thrown light on a possible novel form of communication between beneficial endophytes and host plants via melatonin.
Subject(s)
Melatonin/physiology , Plant Growth Regulators/physiology , Melatonin/pharmacology , Plant Physiological Phenomena/drug effects , Plants/drug effectsABSTRACT
Nicotine promotes rooting in leaf explants of tomato (Lycopersicon esculentum Miller var. Pusa Ruby). Nicotine at 10(-9) to 10(-3) M concentrations was added to the MS basal medium. The optimum response (three-fold increase in rooting) was obtained at 10(-7) M nicotine-enriched MS medium. At the same level i.e. 10(-7) M Nicotine induced dramatic increase (11-fold) in the number of secondary roots per root. We have shown earlier that exogenous acetylcholine induces a similar response in tomato leaves. Since nicotine is an agonist of one of the two acetylcholine receptors in animals, its ability to simulate ACh action in a plant system suggests the presence of the same molecular mechanism operative in both, animal and plant cells.
Subject(s)
Cholinergic Agonists/pharmacology , Nicotine/pharmacology , Plant Leaves/drug effects , Plant Roots/growth & development , Receptors, Cholinergic/metabolism , Seedlings/physiology , Solanum lycopersicum/physiologyABSTRACT
The number of studies on melatonin in plants has increased significantly in recent years. This molecule, with a large set of functions in animals, has also shown great potential in plant physiology. This review outlines the main functions of melatonin in the physiology of higher plants. Its role as antistress agent against abiotic stressors, such as drought, salinity, low and high ambient temperatures, UV radiation and toxic chemicals, is analyzed. The latest data on their role in plant-pathogen interactions are also discussed. Both abiotic and biotic stresses produce a significant increase in endogenous melatonin levels, indicating its possible role as effector in these situations. The existence of endogenous circadian rhythms in melatonin levels has been demonstrated in some species, and the data, although limited, suggest a central role of this molecule in the day/night cycles in plants. Finally, another aspect that has led to a large volume of research is the involvement of melatonin in aspects of plant development regulation. Although its role as a plant hormone is still far of from being fully established, its involvement in processes such as growth, rhizogenesis, and photosynthesis seems evident. The multiple changes in gene expression caused by melatonin point to its role as a multiregulatory molecule capable of coordinating many aspects of plant development. This last aspect, together with its role as an alleviating-stressor agent, suggests that melatonin is an excellent prospect for crop improvement.
