Historical Overview on Plant Neurobiology

The review tracks the history of electrical long-distance signals from the first recordings of action potentials (APs) in sensitive Dionea and Mimosa plants at the end of the 19th century to their re-discovery in common plants in the 1950s, from the first intracellular recordings of APs in giant algal cells to the identification of the ionic mechanisms by voltage-clamp experiments. An important aspect is the comparison of plant and animal signals and the resulting theoretical implications that accompany the field from the first assignment of the term "action potential" to plants to recent discussions of terms like plant neurobiology.

[1]  J. D. Rhodes,et al.  The pathway for systemic electrical signal conduction in the wounded tomato plant , 1996, Planta.

[2]  Peter W. Barlow,et al.  Communication in Plants. Neuronal Aspects of Plant Life , 2006 .

[3]  Silvia Colla Untersuchungen über Plasma und Plasmaströmung bei Characeen , 1929, Protoplasma.

[4]  Frantisek Baluska,et al.  Plant synapses: actin-based domains for cell-to-cell communication. , 2005, Trends in plant science.

[5]  J. Bose Researches on irritability of plants, by Jagadis Chunder Bose ... , 1913 .

[6]  P. Minchin,et al.  Electrical signalling and systemic proteinase inhibitor induction in the wounded plant , 1992, Nature.

[7]  F. F. Blackman Plant Response as a Means of Physiological Investigation , 1907, Nature.

[8]  H. Jones,et al.  The relationship between wound‐induced proteinase inhibitors and hydraulic signals in tomato seedlings , 1994 .

[9]  E. Bois-Reymond Untersuchungen über thierische Elektricität , 1848 .

[10]  J. Bernstein Elektrobiologie : die Lehre von den elektrischen Vorgängen im Organismus auf moderner Grundlage dargestellt , 1912 .

[11]  Frantisek Baluska,et al.  Polar transport of auxin: carrier-mediated flux across the plasma membrane or neurotransmitter-like secretion? , 2003, Trends in cell biology.

[12]  K. Umrath Der Erregungsvorgang bei Nitella mucronata , 1933, Protoplasma.

[13]  A. Volkov,et al.  Insect-induced biolectrochemical signals in potato plants , 1995 .

[14]  J. C. Bose,et al.  The Nervous Mechanism of Plants , 1926, Nature.

[15]  W. Osterhout ELECTRICAL PHENOMENA IN LARGE PLANT CELLS , 1936 .

[16]  Rainer Matyssek,et al.  Transient knockout of photosynthesis mediated by electrical signals. , 2004, The New phytologist.

[17]  A. Bel,et al.  The phloem, a miracle of ingenuity , 2003 .

[18]  E. Król,et al.  Electrical Signals in Long-Distance Communication in Plants , 2006 .

[19]  J. Fisahn,et al.  Localized Wounding by Heat Initiates the Accumulation of Proteinase Inhibitor II in Abscisic Acid-Deficient Plants by Triggering Jasmonic Acid Biosynthesis , 1996, Plant physiology.

[20]  J. Fisahn,et al.  Proteinase Inhibitor II Gene Expression Induced by Electrical Stimulation and Control of Photosynthetic Activity in Tomato Plants , 1995 .

[21]  G. Haberlandt Das reizleitende Gewebesystem der Sinnpflanze : eine anatomisch-physiologische Untersuchung , 1890 .

[22]  B. Hille Ionic channels of excitable membranes , 2001 .

[23]  A. J. Ewart,et al.  The Physiology of Plants, a Treatise upon the Metabolism and Sources of Energy in Plants , 2009, Nature.

[24]  A. M. Sinyukhin,et al.  Action Potentials in the Reproductive System of Plants , 1967, Nature.

[25]  Jagadish Chandra Bose,et al.  Researches on irritability of plants , 2022 .

[26]  Jörg Fromm,et al.  Transport processes in stimulated and non-stimulated leaves of Mimosa pudica , 1988, Trees.

[27]  C. Darwin The Movements and Habits of Climbing Plants , 1875, Nature.

[28]  W. Frommer,et al.  Conservation of amino acid transporters in fungi, plants and animals. , 2002, Trends in biochemical sciences.

[29]  D. Hodick,et al.  The action potential of Dionaea muscipula Ellis , 1988, Planta.

[30]  K. Umrath Untersuchungen über Plasma und Plasmaströmung an Characeen , 1930, Protoplasma.

[31]  Barbara G. Pickard,et al.  Action potentials in higher plants , 1973, The Botanical Review.

[32]  Rainer Stahlberg,et al.  Slow Wave Potentials — a Propagating Electrical Signal Unique to Higher Plants , 2006 .

[33]  G. Haberlandt Sinnesorgane im Pflanzenreich : zur Perception mechanischer Reize , 1901 .

[34]  Jörg Fromm,et al.  Action potentials in maize sieve tubes change phloem translocation , 1994 .

[35]  H. Curtis,et al.  ELECTRIC IMPEDANCE OF NITELLA DURING ACTIVITY , 1938, The Journal of general physiology.

[36]  A. W. Spanjers Bioelectric potential changes in the style of Lilium longiflorum Thunb. after self- and cross-pollination of the stigma , 1981, Planta.

[37]  J. Fromm,et al.  Transport processes in stimulated and non-stimulated leaves ofMimosa pudica , 2004, Trees.

[38]  A. Hodgkin Ionic Currents Underlying Activity in the Giant Axon of the Squid , 1949 .

[39]  Alexander G. Volkov,et al.  Green plants: electrochemical interfaces , 2000 .

[40]  H. Curtis,et al.  ELECTRIC IMPEDANCE OF THE SQUID GIANT AXON DURING ACTIVITY , 1939, The Journal of general physiology.

[41]  T. Sibaoka,et al.  Physiology of Rapid Movements in Higher Plants , 1969 .

[42]  The nerve impulse and the squid. , 1958, Scientific American.

[43]  K. Stern Elektrophysiologie der Pflanzen , 1924 .

[44]  V. Z. Lunevsky,et al.  Excitation ofCharaceae cell membranes as a result of activation of calcium and chloride channels , 1983, The Journal of Membrane Biology.

[45]  Bratislav Stankovic,et al.  The Wound Response in Tomato Involves Rapid Growth and Electrical Responses, Systemically Up-Regulated Transcription of Proteinase Inhibitor and Calmodulin and Down-Regulated Translation , 1998 .

[46]  R. Wayne The excitability of plant cells: With a special emphasis on characean internodal cells , 1994, The Botanical Review.

[47]  J. Burdon-Sanderson I. Note on the electrical phenomena which accompany irritation of the leaf of Dionæa muscipula , 1873, Proceedings of the Royal Society of London.

[48]  T. Sibaoka,et al.  Rapid plant movements triggered by action potentials , 1991, The botanical magazine = Shokubutsu-gaku-zasshi.

[49]  B. Stanković,et al.  Both action potentials and variation potentials induce proteinase inhibitor gene expression in tomato , 1996, FEBS letters.

[50]  A. Trewavas Aspects of plant intelligence: an answer to Firn. , 2004, Annals of botany.

[51]  Luigi Galvani,et al.  De viribus electricitatis in motu musculari , 1967 .

[52]  Min Zhao,et al.  Controlling cell behavior electrically: current views and future potential. , 2005, Physiological reviews.

[53]  J. C. Bose,et al.  Physiological and Anatomical Investigations on Mimosa pudica , 1925 .

[54]  Tadeusz Zawadzki,et al.  Transmission route for action potentials and variation potentials in Helianthus annuus L. , 2001 .

[55]  J. Fisahn,et al.  Remote stimulation by heat induces characteristic membrane-potential responses in the veins of wild-type and abscisic acid-deficient tomato plants , 1998, Planta.