Abstract
The penetration of substances from the surface to deep inside plant tissues is called infiltration. Although various plant tissues may be effectively saturated with externally applied fluid, most described infiltration strategies have been developed for leaves. The infiltration process can be spontaneous (under normal atmospheric pressure) or forced by a pressure difference generated between the lamina surface and the inside of the leaf. Spontaneous infiltration of leaf laminae is possible with the use of liquids with sufficiently low surface tension. Forced infiltration is most commonly performed using needle-less syringes or vacuum pumps.Leaf infiltration is widely used in plant sciences for both research and application purposes, usually as a starting technique to obtain plant material for advanced experimental procedures. Leaf infiltration followed by gentle centrifugation allows to obtain the apoplastic fluid for further analyses including various omics. In studies of plant-microorganism interactions, infiltration is used for the controlled introduction of bacterial suspensions into leaf tissues or for the isolation of microorganisms inhabiting apoplastic spaces of leaves. The methods based on infiltration of target tissues allow the penetration of dyes, fixatives and other substances improving the quality of microscopic imaging. Infiltration has found a special application in plant biotechnology as a method of transient transformation with the use of Agrobacterium suspension (agroinfiltration) enabling genetic modifications of mature plant leaves, including the local induction of mutations using genome editing tools. In plant nanobiotechnology, the leaves of the target plants can be infiltrated with suitably prepared nanoparticles, which can act as light sensors or increase the plant resistance to environmental stress. In addition the infiltration has been also intensively studied due to the undesirable effects of this phenomenon in some food technology sectors, such as accidental contamination of leafy greens with pathogenic bacteria during the vacuum cooling process.This review, inspired by the growing interest of the scientists from various fields of plant science in the phenomenon of infiltration, provides the description of different infiltration methods and summarizes the recent applications of this technique in plant physiology, phytopathology and plant (nano-)biotechnology.
Highlights
The intercellular spaces in leaf mesophyll play a pivotal role in gas exchange and transpiration
This review aims to bring together the methods used in plant biology in which infiltration is the starting procedure for further, sometimes very advanced research with the use Strategies of leaf infiltration The short term “infiltration” was originally used to describe the phenomenon of spontaneous penetration of liquids through the stomata into the intercellular spaces connected with stomatal cavities [7, 15]
The first category includes experiments in which the application of various substances to the internal leaf tissues is intended to induce the studied effect, such as hormone application or agroinfiltration. The another category relates to the experiment aimed at characterization of the plant apoplast
Summary
The intercellular spaces in leaf mesophyll play a pivotal role in gas exchange and transpiration. Natural access to them is possible thanks to stomata on the leaf surfaces [1–3]. Stomata are used to reach the intercellular spaces by pathogenic and non-pathogenic microorganisms which will inhabit the leaf intercellular space [4, 5]. Access to internal leaf tissues through the stomata allows for the experimental application of various types of liquid substances from the outside. This procedure is commonly referred to as leaf infiltration [1, 6, 7]. Infiltration can occur spontaneously or as a forced process
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