lled plus the involvement of phytohormones and environmental stimuli which can be involved within the regulation of stomatal dynamics are explained beneath. In the ABA/Ca2+ -mediated stomatal closure modulation (Figure 7A(panel i)), genes including WRKY46 (AT2G46400) and RZPF34/CHYR1 (AT5G22920) function within the response to ABA and to water deficit pressure (Figure 5A). On the other hand, various genes, for example JAZ2, MYC2, and ANAC019 (AT1G74950, AT1G32640, and AT1G52890), modulate stomatal reopening after microbe-associated molecular pattern (MAMP)-mediated stomatal closure and activate the JA pathway upon bacterial infection (Figure 7A(panel ii)). Similarly, stomatal reopening is modulated by either the SA-mediated pathogen infection signaling pathway (Figure 7A(panel ii)) or light-induced starch degradation by the glucan hydrolase -AMYLASE1, that is encoded by BAM1 (AT3G23920), to promote speedy stomatal opening (Figure 7A(panel iii)). All of the DEGs inside the three modulations showed higher induced expression levels inside the P1/HC-ProTu plants than inside the Col-0, P1Tu , and HC-ProTu plants (Figure 7B).Viruses 2021, 13,12 ofMoreover, the stress responses induced by P1/HC-ProTu could have an effect on the regulatory mechanisms of stomatal improvement and bring about stable long-term adaptations to strain (Figure 7A(panel iv)). Induced expression from the negative regulator EPF2 (AT1G34245) along with the good regulator TMM (AT1G80080) could impact the asymmetric divisions of guard mother cells (Figure 7B). An accumulation of AGL16 (AT3G57230) with silent mutations (AGL16m) within the miR824 recognition site reportedly promotes the improvement of higherorder stomatal complexes by rising the amount of additional divisions in meristemoid cells [13]. Together with the exceptions of EPE2 and TMM, all of these genes have been expressed at higher levels in the P1/HC-ProTu plants than in the Col-0, P1Tu , and HC-ProTu plants (Figure 7B). Overall, the outcomes indicate that the integration of ABA, calcium, and also other hormone signals could simultaneously trigger dynamic closure and opening mechanisms throughout drought stress or biotic tension inside the P1/HC-ProTu plants.Table four. List of genes related to drought responses found inside the P1/HC-ProTu -only section from the HTP profiles. AGI AT2G39800 AT3G46620 AT5G59550 AT3G11820 AT2G46400 AT1G32640 AT3G57230 AT3G23920 AT1G34245 AT5G10720 AT5G22920 AT3G52400 AT1G74950 AT1G80080 AT1G52890 AT1G69490 AT2G25900 AT5G45340 AT5G52050 AT1G74930 AT1G08920 AT5G39760 AT5G62470 AT5G67300 AT1G54160 AT5G42050 AT3G52450 AT2G35930 AT1G13260 AT5G65300 AT2G41010 Gene Name P5CS1 RDUF1 RDUF2/BTL09 SYR1/SYP121 WRKY46 MYC2 AGL16 BAM1 EPF2 HK5 RZPF34/CHYR1 SYP122 TIFY10B/JAZ2 TMM ANAC019/NAC019 ANAC029/NAP ATCTH/TZF1 CYP707A3 DTX50 ERF018/ORA47 ESL1 HB23 MYB96 MYBR1/MYB44 NF-YA5 NRP PUB22 PUB23 RAV1 SUPA IL-2 Inhibitor Source CAMBP25 Annotations Delta1-pyrroline-5-carboxylate synthase 1 Zinc finger (C3HC4-type RING finger) family members HDAC11 Inhibitor supplier protein Zinc finger (C3HC4-type RING finger) loved ones protein Syntaxin of plants 121 WRKY DNA-binding protein 46 Fundamental helix-loop-helix (bHLH) DNA-binding household protein AGAMOUS-like 16 Beta-amylase 1 Putative membrane lipoprotein Histidine kinase 5 CHY-type/CTCHY-type/RING-type Zinc finger protein Syntaxin of plants 122 TIFY domain/Divergent CCT motif family protein Leucine-rich repeat (LRR) family protein NAC domain containing protein 19 NAC-like, activated by AP3/PI Zinc finger C-x8-C-x5-C-x3-H type loved ones protein Cytochrome P450, loved ones 707, subfamily A, polypeptide three MATE efflux family members prot