Molecular characterization of Secreted in Xylem 1 (Six1) gene of Fusarium oxysporum causing wilt of potato (Solanum tuberosum)

Abstract

AbstractDeciphering effector genes of plant‐pathogenic fungi is key to understanding their role in pathogenicity because acquisition of such genes through horizontal transfer may result in emergence of new pathogenic races. A full‐length (837 bp) Six1 gene has been cloned and sequenced from the genome of Fusarium oxysporum FPo isolated from roots of wilted potatoes in West Bengal, India. The isolate was identified based on conidial morphology and sequencing of the 28S rDNA and elongation factor 1α gene. Koch's postulates established that the isolate could incite wilting in potato plants. The Six Gene Expression 1 gene (Sge1) was amplified from the isolate and compared with that of other wilt‐causing F. oxysporum isolates. The Six1 gene had no intron and it encoded 278 amino acids, with a calculated molecular weight of 30.6 kDa, estimated isoelectric point 5.66 and theoretical extinction coefficient of 57,410 M−1 cm−1. Multiple sequence alignment of SIX1 amino acid sequences showed that the length of SIX1 varied among F. oxysporum formae speciales and different isolates of the same forma specialis. The predicted secondary structure of FPoSIX1 contained four α‐helices and 14 β‐sheets. Its predicted tertiary structure showed 92% query coverage and 67.37% identity with the template of the SIX1 protein of F. oxysporum f. sp. lycopersici PDB code: 7t69. The QMEAN score of this model was −2.53 and the model was validated using the Ramachandran Phi/Psi plot. Structure analysis of the effector protein will be helpful to identify its specific function and recognition by the host resistance protein.