Abstract
In the work presented in silico DNA sequence and dendrogram analyses were carried out to reveal molecular diversity and genetic distances among Rhytisma entries and related species based on gene bank data mining. The study revealed that R. acerinum shows the closest genetic distance to R. polare. DNA nucleotide variation detected raised a need for consensus between the Linnean morphological and the new molecular systematics.
Highlights
Genetic analysis of the tree leaf disease microfungus Rhytisma acerinumAbstract – In the work presented in silico DNA sequence and dendrogram analyses were carried out to reveal molecular diversity and genetic distances among Rhytisma entries and related species based on gene bank data mining
Unlike macro/higher/true fungi (Fukasawa, 2021; Gyulai et al, 2018) which comprise about 0.1 million species, microfungi comprise about a fifteenfold number of 1.5 million species
Genetic distances among Rhytisma acerinum accessions and Rhytisma species based on genes of ITS1–5.8S–ITS2 ribosomal DNA sequences after aligning to R. acerinum (NCBI# MZ159658.1; 525 nt)
Summary
Abstract – In the work presented in silico DNA sequence and dendrogram analyses were carried out to reveal molecular diversity and genetic distances among Rhytisma entries and related species based on gene bank data mining. The study revealed that R. acerinum shows the closest genetic distance to R. polare. DNA nucleotide variation detected raised a need for consensus between the Linnean morphological and the new molecular systematics
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