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Plant Cell Communication through Plasmodesmata and Molecular Trafficking

Plant Cell Communication through Plasmodesmata and Molecular Trafficking Abstract The aim of this review is to examine the role of plasmodesmata in plant cell communication and molecular trafficking. Plants cannot move from one place to another, i.e., sessile, but they are continuously facing challenges from the changing environment to survive and also to fight different pathogens. This special characteristic is performed by a plant cell through its cell communication mechanism. Thus cell to cell-to-cell communication mechanism is essential to understand the way of transferring signals from one cell to another for performing important metabolic functions. The cell-to-cell communication process is helping in coordinating growth, differentiation and development by sending signals from one cell to another. The main function of communication in plant cells is done through plasmodesmata, which have been discussed. But recently it has been noted that there is another alternative mechanism for sending signals, like other eukaryotic cells is through RNA-binding proteins. There was an idea that plasmodesmata could not allow large molecules as water and micronutrients, are pass through it. But it has been noted that its size is not constant but is very dynamic, where its size can change according to its needs. The role of plasmodesmata and RNA-binding proteins in communication, as well as molecular trafficking, has been discussed. \\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\ Layman Abstract : This review looks at how plant cells communicate with each other. Since plants can't move, they rely on special channels called plasmodesmata to send signals and share important materials between cells. These signals help the plant grow, develop, and respond to stress or disease. Scientists have also discovered that RNA-binding proteins may help carry messages too. The study highlights how these systems work together to keep the plant healthy and functioning. Disclaimer: This scientific-creative video was produced using AI voice-over and royalty-free stock images and clips. All content is sourced exclusively from peer-reviewed journal articles and book chapters, with full citations provided below. The peer-review process for these sources is also detailed here. Source / Reference: https://doi.org/10.9734/bpi/mono/978-... Peer Review History: https://peerreviewarchive.com/review-... #PlantScience #CellBiology #Plasmodesmata #RNA #MolecularTrafficking #PlantCommunication #Botany #ScienceExplained #Biology #Grafting #SeedDevelopment #PlantDefense #RNABindingProteins 🔎 Your Queries plasmodesmata RNA-binding proteins Plasmodesmata Plant cell communication RNA-binding proteins Cell-to-cell signaling in plants Symplastic vs apoplastic pathway Molecular trafficking in plants How do plant cells communicate? Plant defense mechanisms RNA transport in plants Grafting in plants explained What are plasmodesmata? Role of RNA in plant cells Plant cell signaling pathways How plants fight pathogens Dynamic size of plasmodesmata Plant cell wall function RNA-binding proteins in plants Seed germination and development Plant immune system explained Intercellular communication in plants Biology of plant cells Science behind plant grafting Plant cell biology lecture Advanced botany concepts How plants send signals