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Re-sequencing of the complete chloroplast genome of Cinnamomum burmanni (Nees & T.Nees) Blume (Lauraceae) from Indonesia using MinION Oxford Nanopore Technologies

[version 1; peer review: 1 approved with reservations, 1 not approved]
Richard Andreas Salindeho
https://orcid.org/0000-0003-3897-4671
1Fifi Gus Dwiyanti
https://orcid.org/0000-0003-0366-3259
1,2Rahadian Pratama
https://orcid.org/0000-0002-2709-7370
2,3Deden Derajat Matra2,4Muhammad Majiidu
https://orcid.org/0000-0002-1996-6580
2Iskandar Z. Siregar
https://orcid.org/0000-0003-0278-5887
1,2
Richard Andreas Salindeho
https://orcid.org/0000-0003-3897-4671
1Fifi Gus Dwiyanti
https://orcid.org/0000-0003-0366-3259
1,2[...] Rahadian Pratama
https://orcid.org/0000-0002-2709-7370
2,3Deden Derajat Matra2,4Muhammad Majiidu
https://orcid.org/0000-0002-1996-6580
2Iskandar Z. Siregar
https://orcid.org/0000-0003-0278-5887
1,2
PUBLISHED 20 Feb 2024
Author details Author details
OPEN PEER REVIEW
REVIEWER STATUS

This article is included in the Genomics and Genetics gateway.

Abstract

Cinnamomum burmanni (Nees & T.Nees) Blume (Lauraceae) belongs to the Magnoliids group and is mainly distributed in Indonesia and Southeast Asia. The complete chloroplast (cp) genome of C. burmanni sampled from Indonesia was assembled and annotated for the first time in this study. The length of the cp genome is 152,765 bp with a GC content of 39%, and it consists of four subregions: a large single-copy (LSC) region of 93,636 bp, a small single-copy (SSC) region of 18,893 bp and two inverted repeats (IR) regions (IRA 20,121 bp; IRB 20,115 bp) . The cp genome of C. burmanni encodes a total of 173 unique genes, which are 96 protein-coding genes, 19 rRNA genes, and 68 tRNA genes that can be utilized for advanced genetic and genomic studies of the species.

Keywords

Conservation, complete chloroplast genome, Lauraceae, phylogenetic

Corresponding author: Iskandar Z. Siregar
Competing interests: No competing interests were disclosed.
Grant information: This research was funded by the National Competitive Basic Research 2022-2023 Scheme No: 001/E5/PG.02.00PT/2022 and 001/E5/PG.02.00.PL/2023 awarded by the Ministry of Education, Culture, Research and Technology of the Republic of Indonesia entitled “Pilot Sequencing of 100 Native Forest Tree Genomes to Support Ecosystem Restoration (Rintisan Sekuensing 100 Genom Pohon Hutan Asli untuk Mendukung Restorasi Ekosistem)” granted to the corresponding author.
The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.
Copyright:  © 2024 Salindeho RA et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
How to cite: Salindeho RA, Dwiyanti FG, Pratama R et al. Re-sequencing of the complete chloroplast genome of Cinnamomum burmanni (Nees & T.Nees) Blume (Lauraceae) from Indonesia using MinION Oxford Nanopore Technologies [version 1; peer review: 1 approved with reservations, 1 not approved]. F1000Research 2024, 13:127 (https://doi.org/10.12688/f1000research.145790.1) First published: 20 Feb 2024, 13:127 (https://doi.org/10.12688/f1000research.145790.1) Latest published: 21 May 2024, 13:127 (https://doi.org/10.12688/f1000research.145790.2)

Introduction

Cinnamomum burmanni (or cinnamon) is an endemic woody shrub belonging to the Lauraceae family, which is widely distributed in Indonesia covering West Sumatra, North Sumatra, Jambi, Bengkulu, Java Island, and Maluku Islands (Suwarto et al., 2014). The species grows in altitudes between 0 and 2000 m above sea level. The tree can grow up to 15 m tall, and the wood is grey with a very distinctive aroma and sweet taste, so its wood is widely used for spices, cosmetics, and herbs. The active compounds contained in cinnamon wood are cinnamaldehyde, flavonoids, alkaloids, tannins, saponins, coumarins, steroids, eugenol, and phenols, which act as anti-bacterial, anti-tumor, antioxidant, anti-inflammatory, anti-cancer, and anti-diabetic agents (Indarto et al., 2022).

The chloroplast (cp) genome sequence of C. burmanni from China has been previously generated by Yang et al. (2019) using 11 universal primer pairs to perform long-range PCR for next-generation sequencing. However, the study of the cp genome C. burmanni from Indonesia using PCR-free library preparation method and long-read sequencing generated by MinION Oxford Nanopore Technologies (ONT) has not been carried out, whereas this information is needed to improve correct species identification and to optimize the sustainable use of genetic resources for this species. MinION is a third-generation sequencing technology with nanopore technology (Oxford Nanopore Technologies (ONT), 2017). Furthermore, the present study aimed to re-sequence and assemble the complete cp genome C. burmanni from Indonesia using MinION Oxford Nanopore Technologies (ONT).

Methods

Fresh leaf samples were collected from one individual C. burmanni tree in Lembang Subdistrict, West Bandung Regency, West Java Province, Indonesia. The collected leaf sample was subsequently used for DNA extraction and sequencing in the field. The data analysis of the chloroplast genome was performed at the Laboratory of Forest Genetics and Molecular Forestry, Department of Silviculture, Faculty of Forestry and Environment, IPB University.

C. burmanni genomic DNA was extracted using the Qiagen DNeasy Plant Mini Kit (cat. nos. 69104 and 69106) following the protocol provided by the manufacturer with slight modifications. Extraction was carried out first by grinding fresh leaf samples to which 400 μl of Buffer AP1 and 1 μl of mercaptoethanol had been added using a mortar and pestle. The disrupted sample was placed into a 1.5 ml microcentrifuge tube. The mixture was then incubated for 10 min at 65°C using Mini Heating Dry Bath Incubator MD-MINI (Major Science Co., Ltd). Afterward, 130 μl Buffer P3 was added into the microtube and then vortexed using Biosan V-32 Multi-Vortex and incubated for 5 min on ice. The mixture was centrifuged for 2 min at 8000 × g using a portable microcentrifuge on the Bento Lab device (Bento Bioworks Ltd). The lysate was pipetted into a QIAshredder spin column placed in a 2 ml collection tube. The lysate was centrifuged for 2 min at 8000 × g using a portable microcentrifuge on the Bento Lab device (Bento Bioworks Ltd). The flow-through was transferred into a new tube without disturbing the DNA pellet. 1.5 volumes of Buffer AW1 were then added and mixed by pipetting. 650 μl of the mixture was transferred into a DNeasy Mini spin column placed in a 2 ml collection tube and subsequently centrifuged for 1 min at 6000 × g. The flow-through was discarded and the spin column was placed into a new 2 ml collection tube. 500 μl Buffer AW2 was added to the spin column and centrifuged for 1 min at 6000 × g. The flow-through was then discarded and the spin column was transferred to a new 1.5 ml microcentrifuge tube. 50 μl Buffer AE was added for elution and subsequently incubated for 5 min at room temperature (15–25°C) before centrifuging for 1 min at 6000 × g. The quantity of genomic DNA was measured by the Invitrogen Qubit 1.0 fluorometer with the Qubit dsDNA BR assay kit.

The high molecular weight of 400 ng evaluated DNA proceeded to PCR-free library preparation, which followed the Nanopore protocol for Rapid sequencing gDNA – Field Sequencing Kit (SQK-LRK 001) version FSK_9049_v1_revR_14Aug2019. The prepared DNA library was sequenced using the MinION R9.4.1 flow cell (FLO-MIN106D) on a MinION Mk1B sequencer (Oxford Nanopore Technologies). The runs were visualized by MinKnow v3.6.5 software (http://community.nanoporetech.com Oxford Nanopore Technologies).

Basecalling with super accuracy mode (SUP) to translate Fast5 raw data into Fastq (DNA-Seq of Cinnamomum burmanni. NCBI Accession number SRX22198906) data was performed using the Guppy program (RRID:SCR_023196) v4.2.3+8aca2af8 (Wick et al., 2019). Quality control was done using NanoStat v1.5.0 and NanoPlot (RRID:SCR_024128) v1.28.2 (De Coster et al., 2018). Chloroplast genome assembly was performed using Galaxy Server (RRID:SCR_006281) version 23.1.1.dev0 (Sloggett et al., 2013). The assembly includes a filtering step to filter reads quality (Q>7) and length minimum of reads (>500 bp), using the Flye program (RRID:SCR_017016) v2.9 (Kolmogorov et al., 2020) and polishing the assembly results using the MEDAKA consensus program (RRID:SCR_005857) v1.4.4 (Oosterbroek et al., 2021). The cpDNA data was then annotated using the GeSeq (RRID:SCR_017336) on the CHLOROBOX platform (Tillich et al., 2017) to assign functions to the predicted genes and generate a map representation of the chloroplast genome.

Results

The cp genome showed a typical quadripartite structure (Figure 1) with a length of 152,765 bp, consisting of small single copy (SSC 18,893 bp) and large single copy (LSC 93,636 bp) regions separated by a pair of inverted repeat A (IRA 20,121 bp) and inverted repeat B (IRB 20,115 bp) regions (Figure 1). The C. burmanni chloroplast genome contained 173 unique genes, including 96 coding sequences, 68 transfer RNA (tRNA), and 19 ribosomal RNA (rRNA) genes (Table 1). The C. burmanni sequence had a GC content of 39% (LSC 38%; SSC 34%; IR 44%). The results of the typical quadripartite structure were similar to the C. burmanni reported by Yang et al. (2019).

6c60bd7d-c0a8-4ee3-8dc7-58a53efc0f7e_figure1.gif

Figure 1. The complete chloroplast genome of Cinnamomum burmanni.

Table 1. List of genes in the chloroplast genome of Cinnamomum burmanni.

Functional categoryGroup of genesName of genes
Self-replicationLarge subunit ribosomal proteinsrpl32, rpl33, rpl20, rpl36, rpl14, rpl16*(×2), rpl22, rpl2*(×2), rpl23
DNA dependent RNA polymeraserpoC2, rpoC1*(×2), rpoB, rpoA
Small subunit ribosomal proteinsrps7, rps12**(×2), rps15, rps7, rps16*(×2), rps2, rps14, rps4, rps18, rps11, rps8, rps3, rps19, rps12-fragment*
rRNAsrrn16, rrn23, rrn5, rrn4.5
tRNAstrnL-CAA, trnV-GAC, trnE-UUC, trnA-UGC*(×2), trnN-GUU, trnL-UAG, trnN-GUU, trnR-ACG, trnR-ACG, trnI-GAU*(×2), trnV-GAC, trnL-CAA, trnH-GUG, trnK-UUU*(×2), trnQ-UUG, trnG-UCC*(×2), trnR-UCU, trnC-GCA, trnD-GUC, trnY-GUA, trnT-GGU, trnS-UGA, trnG-GCC, trnM-CAU, trnfM-CAU, trnS-GGA, trnT-UGU, trnL-UAA*(×2), trnF-GAA, trnV-UAC*(×2), trnW-CCA, trnP-UGG, trnI-CAU, trnS-GCU
Subunit of ATP synthaseatpA, atpF*(×2), atpH, atpI, atpE, atpB
Subunit of NADH-dehydrogenasendhB*(×2), ndhH, ndhA*(×2), ndhI, ndhG, ndhE, ndhD, ndhF, ndhJ, ndhK, ndhC
PhotosynthesisSubunits of cytochrome b/f complexpetN, petA, petL, petG, petB*(×2), petD*(×2)
Subunits of photosystem IpsaC, psaB, psaA, psaI, psaJ
Subunits of photosystem IIpsbK, psbI, psbM, psbD, psbC, psbZ, psbJ, psbL, psbF, psbE, psbB, psbT, psbH, psbA
Subunit rubiscorbcL
Photosystem assembly factorspafI**(×2), pafII
Photosystem biogenesis factorPbf1
Subunit of acetyl-CoA-carboxylaseaccD
C-type cytochrome synthesis geneccsA
Other functionsEnvelope membrane proteincemA
ATP-dependent protease subunit PclpP1**(×2)
MaturasematK
Conserved open reading framesycf2 (×2)
Transitional initiation factorinfA

* Gene containing single intron.

** Gene containing two introns.

Data availability

Underlying data

NCBI’s Short Read Archive (SRA): DNA-Seq of Cinnamomum burmanni. Accession number SRX22198906; https://identifiers.org/insdc.sra:SRX22198906 (IPB University, 2023).

Acknowledgements

The authors thank Mrs. Siska Nurfajri and Ms. Nabila Salsabila Salmah, the alumni of the Department of Silviculture, Faculty of Forestry and Environment, IPB University, for their valuable assistance in DNA extraction.

References

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Salindeho RA, Dwiyanti FG, Pratama R et al. Re-sequencing of the complete chloroplast genome of Cinnamomum burmanni (Nees & T.Nees) Blume (Lauraceae) from Indonesia using MinION Oxford Nanopore Technologies [version 1; peer review: 1 approved with reservations, 1 not approved]. F1000Research 2024, 13:127 (https://doi.org/10.12688/f1000research.145790.1)
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Reviewer Report 25 Apr 2024
Jakub Sawicki, Department of Botany and Nature Protection, University of Warmia and Mazury in Olsztyn, Olsztyn, Poland 
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https://doi.org/10.5256/f1000research.159786.r262304
This paper presents a clear and well-structured investigation into the chloroplast genome of Indonesian Cinnamomum burmanni. The authors effectively introduce the plant's significance and the rationale for studying its genome, highlighting the knowledge gap regarding this specific Indonesian variety. Authors ... Continue reading
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Sawicki J. Reviewer Report For: Re-sequencing of the complete chloroplast genome of Cinnamomum burmanni (Nees & T.Nees) Blume (Lauraceae) from Indonesia using MinION Oxford Nanopore Technologies [version 1; peer review: 1 approved with reservations, 1 not approved]. F1000Research 2024, 13:127 (https://doi.org/10.5256/f1000research.159786.r262304)
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    Richard Salindeho, Department of Silviculture, Faculty of Forestry and Environment, IPB University, Bogor, 16680, Indonesia
    26 Jun 2024
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  • Author Response 26 Jun 2024
    Richard Salindeho, Department of Silviculture, Faculty of Forestry and Environment, IPB University, Bogor, 16680, Indonesia
    26 Jun 2024
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    Thank you for your comment and suggestion.
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Hoang Dang Khoa Do, Nguyen Tat Thanh University, Ho Chi Minh City, Ho Chi Minh, Vietnam 
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https://doi.org/10.5256/f1000research.159786.r255270
1/ "MinION is a third-generation sequencing technology with nanopore technology (Oxford Nanopore Technologies (ONT), 2017)". MinION is one of the devices of ONT for performing sequencing. Therefore, please revise the sentence.
2/ Please revise the Figure 1. There are ... Continue reading
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Do HDK. Reviewer Report For: Re-sequencing of the complete chloroplast genome of Cinnamomum burmanni (Nees & T.Nees) Blume (Lauraceae) from Indonesia using MinION Oxford Nanopore Technologies [version 1; peer review: 1 approved with reservations, 1 not approved]. F1000Research 2024, 13:127 (https://doi.org/10.5256/f1000research.159786.r255270)
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  • Author Response 20 Jun 2024
    Richard Salindeho, Department of Silviculture, Faculty of Forestry and Environment, IPB University, Bogor, 16680, Indonesia
    20 Jun 2024
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    Dear Reviewer,

    Thank you for the constructive inputs to our manuscript.
    We have responded to all reviewer's comment's as you may find in the following link

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  • Author Response 20 Jun 2024
    Richard Salindeho, Department of Silviculture, Faculty of Forestry and Environment, IPB University, Bogor, 16680, Indonesia
    20 Jun 2024
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    Dear Reviewer,

    Thank you for the constructive inputs to our manuscript.
    We have responded to all reviewer's comment's as you may find in the following link

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  1. Hoang Dang Khoa Do, Nguyen Tat Thanh University, Ho Chi Minh City, Vietnam
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