A significant advancement in our knowledge and understanding of wound-signaling pathways in plants has been made recently. Essential role in the explanation of these processes came from the genetic screens and analysis of mutants which are defective in either jasmonic acid (JA) biosynthesis, JA perception or systemin function. Plants equally react to wound in the tissues directly damaged (local response) as well as in the non-wounded areas (systemic response). Jasmonides and in particular the most studied JA, produced by the octadecanoid pathway, are responsible for the systemic response. Jasmonides functioning as long-distance signal particles transmit the information about wound to distant, non-wounded tissues where defense response is invoked. Peptyd - systemin, identified in some Solanaceous species, acts locally to the wounded area to elicit the production of JA. Jasmonic acid-dependent and -independent wound signal transduction pathways have been identified and partially characterized. JA-dependent wound signaling pathways are responsible for the activation of systemic responses, whereas JA-independent wound signaling pathways, activated close to wound side, have a role in reparation of damaged tissue and in defense against pathogens.