Comparative analysis of the complete chloroplast genome of the rare endemic palm Pinanga arinasae Witono from Bali, Indonesia

Authors

NI PUTU SRI ASIHFollow
RISHA AMILIA PRATIWIFollow
ISTIANA PRIHATINIFollow
PARAMITA CAHYANINGRUM KUSWANDIFollow
EVY YULIANTIFollow
ARIEF PRIYADIFollow

Abstract

Pinanga arinasae is an endangered species endemic to Bali, Indonesia. Our study aims to characterize its chloroplast genome, compare it with other chloroplast genomes, including its phylogenetic position within the Arecoideae subfamily, and identify potential molecular markers. P. arinasae chloroplast genomes characterization involves Illumina-based sequencing, de novo genome assembly, gene annotation, amino acid frequency, codon usage pattern analysis, and Simple Sequence Marker (SSR) identification. Comparative analysis include phylogenetic tree reconstruction, comparison of amino acid frequency, codon usage pattern, SSR number, inverted repeat junction arrangement, genome length, GC content, and gene number. Nucleotide diversity is calculated to identify substitution markers. The complete circular chloroplast genome of P. arinasae was 156,773 bp in length, exhibiting a quadripartite structure that consisted of a pair of 25,853 bp inverted repeats, an 18,337 bp small single-copy region, and an 86,730 bp large single-copy region. The overall GC content was 37,41%. A total of 130 genes were annotated, including 85 protein-coding, eight rRNA, and 37 tRNA genes. Leucine was the most frequent amino acid, while tryptophan was the least abundant. The AGA codon had the highest relative synonymous codon usage value. Despite minor expansions and contractions in the inverted repeats, no significant gene rearrangements were found in P. arinasae when compared to other Arecoideae subfamily. Phylogenetic analysis revealed that P. arinasae was sister species with P. Coronata. Additionally, 98 simple sequence repeats and mutational hotspot regions, such as trnS-GCU—trnS-CGA, trnD-GUC— trnY-GUA, psbC—trnS-UGA, petA-psbJ, and rpl32—trnL-UAG were identified as molecular markers. The chloroplast genome of Pinanga arinasae has been characterized and compared within the Arecoideae subfamily. These findings help bridge knowledge gaps in palm phylogenetics. The molecular markers generated can serve as cost-effective tools for assessing genetic diversity and offer support for future conservation efforts and sustainable utilization of P. arinasae.

Author ORCID Identifier

NI PUTU SRI ASIH: 0000-0002-4161-9235

RISHA PRATIWI: 0000-0003-2748-3981

ISTIANA PRIHATINI: 0000-0001-5858-1360

PARAMITA KUSWANDI: 0009-0009-1513-5825

EVY YULIANTI: 0000-0002-4382-0637

ARIEF PRIYADI: 0000-0002-2369-7141

DOI

10.55730/1300-008X.2874

Keywords

Assembly, annotation, characterization, comparative study, phylogeny

First Page

432

Last Page

446

Publisher

The Scientific and Technological Research Council of Türkiye (TÜBİTAK)

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

Recommended Citation

SRI ASIH, N, PRATIWI, R. A, PRIHATINI, I, KUSWANDI, P. C, YULIANTI, E, & PRIYADI, A (2025). Comparative analysis of the complete chloroplast genome of the rare endemic palm Pinanga arinasae Witono from Bali, Indonesia. Turkish Journal of Botany 49 (5): 432-446. https://doi.org/10.55730/1300-008X.2874