Two isolates of brown root disease fungi were obtained from diseased roots of sentang (Azadirachta excelsa). Morphological characters from macroscopic and microscopic studies suggested that both isolates were from the same genus namely Phellinus noxius and Phellinus sp. Cloning and sequencing of ITS region were conducted to investigate further the variation between the two species at
molecular level. PCR-amplified ITS regions were cloned in pCR2.1 and sequenced. DNA sequences sized 723bp and 710bp were obtained for Phellinus noxius and Phellinus sp respectively. Comparison between the two sequences showed 98% similarity where three nucleotide substitutions and three insertion/deletion regions were found sized 8bp, 2bp and 3bp respectively.
The decline ofAcacia mangiumWilld. in Malaysia, especially in Sabah since 2010, is primarily due to Ceratocystiswilt and canker disease (CWCD) caused by theCeratocystis fimbriataEllis & Halst. complex. This study was aimed to investigate the mitochondrial genome architecture of two differentC. fimbriatacomplex isolates from Malaysia: one fromA. mangiumin Pahang (FRIM1162) and another fromEucalyptus pellitain Sarawak (FRIM1441). This research employed Next-Generation Sequencing (NGS) to contrast genomes from diverse hosts with nine additional mitochondrial sequences, identifying significant genetic diversity and mutational hotspots in the mitochondrial genome alignment. The mitochondrial genome-based phylogenetic analysis revealed a significant genetic relationship between the studied isolates and theC. fimbriatacomplex in the South American Subclade, indicating that theC. fimbriatacomplex discovered in Malaysia isC. manginecans. The comparative mitochondrial genome demonstrates the adaptability of the complex due to mobile genetic components and genomic rearrangements in the studiedfungal isolates. This research enhances our knowledge of the genetic diversity and evolutionary patterns within theC. fimbriatacomplex, aiding in a deeper understanding of fungal disease development and host adaption processes. The acquired insights are crucial for creating specific management strategies for CWCD, improving the overall understanding of fungal disease evolution and control.