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Bacterial Phylum Tenericutes01:24

Bacterial Phylum Tenericutes

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The phylum Tenericutes, which includes the single class Mollicutes, comprises bacteria that lack cell walls. The term "Mollicutes" derives from the Latin word mollis, meaning "soft." These organisms are among the smallest known and are commonly referred to as mycoplasmas due to the prominence of the genus Mycoplasma, which includes well-known human pathogens. Despite their inability to stain gram-positively (a result of their lack of cell walls), mycoplasmas are phylogenetically related to the...
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Plasmodesmata01:20

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In a multicellular organism, cells must communicate to work together in a coordinated manner. One way that cells communicate is through direct contact with other cells. The points of contact that connect adjacent cells are called intercellular junctions.
Intercellular junctions are a feature of fungal, plant, and animal cells. However, different types of junctions are found in different kinds of cells. Intercellular junctions found in animal cells include tight junctions, gap junctions, and...
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Plasmodesmata02:32

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The organs in a multicellular organism’s body are made up of tissues formed by cells. To work together cohesively, cells must communicate. One way that cells communicate is through direct contact with other cells. The points of contact that connect adjacent cells are called intercellular junctions.
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Overview of Protists01:27

Overview of Protists

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Protists are diverse eukaryotic microorganisms that lack the specialized tissues of plants and animals and the chitinous cell walls of fungi. Their early divergence within Eukarya resulted in structural, functional, and ecological diversity. They are classified into supergroups such as Archaeplastida, Excavata, Amoebozoa, Rhizaria, Alveolata, and Stramenopiles, determined through genetic analysis and structural similarities.Structural and Functional AdaptationsProtists have various adaptations...
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Bacterial Phylum Planctomycetes01:26

Bacterial Phylum Planctomycetes

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Planctomycetes are a group of morphologically distinct bacteria predominantly classified into two orders: Planctomycetales and Brocadiales. These gram-negative bacteria exhibit unique features, including division by budding and the presence of stalks or appendages. Their cells are often found in rosette arrangements, and they are notable for possessing an S-layer in their cell envelope, which is relatively uncommon among bacteria. Additionally, Planctomycetes frequently exhibit intracellular...
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Diversity of Protists II01:27

Diversity of Protists II

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Alveolates are a group of organisms recognized by the presence of alveoli, which are cytoplasmic sacs located beneath the cell membrane. While their function remains uncertain, alveoli may help regulate water balance by controlling how much water enters and leaves the cell. In dinoflagellates, these structures may serve as armor plates. There are three major types of alveolates: ciliates, which move using cilia; dinoflagellates, which use flagella for movement; and apicomplexans, which are...
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Updated: Jan 14, 2026

Identification of Plasmodesmal Localization Sequences in Proteins In Planta
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Fitoplasmas: Una Introducción

Mattia Tabarelli1, Katrin Janik2

  • 1Functional Genomics, Laimburg Research Centre, Auer/Ora, Italy. Mattia.Tabarelli@laimburg.it.

Methods in molecular biology (Clifton, N.J.)
|January 13, 2026
PubMed
Resumen
Este resumen es generado por máquina.

Este capítulo presenta la biología de los fitoplasmas, abarcando su descubrimiento, clasificación y la evolución de la investigación. Destaca nuevas técnicas moleculares y métodos clásicos revividos en la edición actualizada de "Phytoplasmas: Methods and Protocols".

Palabras clave:
Genómica comparativaDetecciónCaracterización funcionalDiagnóstico molecularInteracciones vector-patógeno

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Área de la Ciencia:

  • Fitopatología
  • Microbiología
  • Biología Molecular

Sus antecedentes:

  • Los fitoplasmas son bacterias patógenas de plantas que carecen de pared celular, causando pérdidas agrícolas significativas en todo el mundo.
  • La comprensión de la biología de los fitoplasmas es crucial para desarrollar estrategias efectivas de manejo de enfermedades.
  • La investigación histórica ha conducido a avances significativos en la clasificación y detección de fitoplasmas.

Objetivo del estudio:

  • Proporcionar una visión general completa de la biología de los fitoplasmas y su trayectoria de investigación histórica.
  • Presentar la tercera edición de "Phytoplasmas: Methods and Protocols", enfatizando su contenido y metodologías actualizadas.
  • Establecer el contexto para los protocolos experimentales detallados presentados en los capítulos siguientes.

Principales métodos:

  • Revisión de literatura histórica y bases de datos taxonómicas.
  • Análisis de los avances recientes en biología molecular y tecnologías de secuenciación.
  • Comparación de metodologías entre diferentes ediciones de "Phytoplasmas: Methods and Protocols".
  • Revisión de literatura histórica y bases de datos taxonómicas.

Principales resultados:

  • La investigación sobre fitoplasmas ha evolucionado significativamente desde su descubrimiento inicial.
  • El estado taxonómico actual de los fitoplasmas refleja la investigación científica en curso.
  • La tercera edición integra técnicas moleculares novedosas con enfoques clásicos establecidos.

Conclusiones:

  • La investigación sobre fitoplasmas es un campo dinámico que se beneficia tanto de la innovación tecnológica como de los métodos clásicos.
  • Este capítulo proporciona una comprensión fundamental para los investigadores que se dedican a estudios de fitoplasmas.
  • Los protocolos actualizados en esta edición facilitarán la investigación futura y los esfuerzos de control de enfermedades.