Genome-wide identification of potassium transporters and channels in Malus domestica genome

Muhammad Waqas; Habibullah Nadeem; Ayshah Aysh Alrashidi; Sajid Fiaz; Muhammad Abdul Rehman Rashid; Hanan Almahasheer; Roshan Zameer; Sanaullah Lehre; Mariusz Jaremko; Majid Nadeem; Hafiz Saeed-ur-Rehman; Najla B.S. Al-Saud; Ahmed M. Ramadan; Roha Razzaq; Farrukh Azeem

doi:10.1038/s41598-025-18251-z

Genome-wide identification of potassium transporters and channels in Malus domestica genome

Muhammad Waqas
, Habibullah Nadeem
, Ayshah Aysh Alrashidi
, Sajid Fiaz^*
, Muhammad Abdul Rehman Rashid
, Hanan Almahasheer
, Roshan Zameer
, Sanaullah Lehre
, Mariusz Jaremko
, Majid Nadeem
, Hafiz Saeed-ur-Rehman
, Najla B.S. Al-Saud
, Ahmed M. Ramadan
, Roha Razzaq
, Farrukh Azeem^*

^*Corresponding author for this work

Biology Department

University of Campania Luigi Vanvitelli
The University of Faisalabad
University of Hail
The University of Lahore
Henan University
King Abdullah University of Science and Technology
The Golden Ratio Institute
Ayub Agricultural Research Institute
King Abdulaziz University
South Dakota State University

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

Potassium (K⁺) is an essential nutrient for plants. It contributes to most physiological and biochemical pathways for plant metabolism, growth, and development. It is the most available plant nutrient, comprising 10–15% of plant weight. Plants have a sophisticated system of K⁺ transporters and channels for distribution in plant body. Apple is one of the most consumed fruits in the world. Its fruit quality and yield are positively affected by K⁺. However, limited information is available about K⁺ transport systems in Apple. In this study, 47 candidate genes (26 K⁺ transporters and 21 K⁺ channels) have been identified in Apple (Malus domestica) genome. The phylogenetic comparisons with other plants (Glycine max, Arabidopsis thaliana, and Oryza sativa) indicated that the K⁺ transport system is much conserved among different plants. The analysis of Gene structure showed the presence of specific introns and exon patterns for these gene families. Transcriptomic data analysis and RT-qPCR demonstrated significant variations in the transcript abundance of these genes in response to abiotic stresses. The current project represents the first report about the K⁺ transport system in Apple. Therefore, it may act as a starting point for further functional characterizations.

Original language	English
Article number	32872
Journal	Scientific Reports
Volume	15
Issue number	1
DOIs	https://doi.org/10.1038/s41598-025-18251-z
State	Published - Dec 2025

Keywords

Auxin
Genomic insights
Indole acetic acid
K channels
RNA-seq

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10.1038/s41598-025-18251-z

Cite this

Waqas, M., Nadeem, H., Alrashidi, A. A., Fiaz, S., Rashid, M. A. R., Almahasheer, H., Zameer, R., Lehre, S., Jaremko, M., Nadeem, M., Saeed-ur-Rehman, H., Al-Saud, N. B. S., Ramadan, A. M., Razzaq, R., & Azeem, F. (2025). Genome-wide identification of potassium transporters and channels in Malus domestica genome. Scientific Reports, 15(1), Article 32872. https://doi.org/10.1038/s41598-025-18251-z

@article{f2198fe1fa634ba1a36353e14e9310ef,

title = "Genome-wide identification of potassium transporters and channels in Malus domestica genome",

abstract = "Potassium (K+) is an essential nutrient for plants. It contributes to most physiological and biochemical pathways for plant metabolism, growth, and development. It is the most available plant nutrient, comprising 10–15\% of plant weight. Plants have a sophisticated system of K+ transporters and channels for distribution in plant body. Apple is one of the most consumed fruits in the world. Its fruit quality and yield are positively affected by K+. However, limited information is available about K+ transport systems in Apple. In this study, 47 candidate genes (26 K+ transporters and 21 K+ channels) have been identified in Apple (Malus domestica) genome. The phylogenetic comparisons with other plants (Glycine max, Arabidopsis thaliana, and Oryza sativa) indicated that the K+ transport system is much conserved among different plants. The analysis of Gene structure showed the presence of specific introns and exon patterns for these gene families. Transcriptomic data analysis and RT-qPCR demonstrated significant variations in the transcript abundance of these genes in response to abiotic stresses. The current project represents the first report about the K+ transport system in Apple. Therefore, it may act as a starting point for further functional characterizations.",

keywords = "Auxin, Genomic insights, Indole acetic acid, K channels, RNA-seq",

author = "Muhammad Waqas and Habibullah Nadeem and Alrashidi, \{Ayshah Aysh\} and Sajid Fiaz and Rashid, \{Muhammad Abdul Rehman\} and Hanan Almahasheer and Roshan Zameer and Sanaullah Lehre and Mariusz Jaremko and Majid Nadeem and Hafiz Saeed-ur-Rehman and Al-Saud, \{Najla B.S.\} and Ramadan, \{Ahmed M.\} and Roha Razzaq and Farrukh Azeem",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

month = dec,

doi = "10.1038/s41598-025-18251-z",

language = "English",

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Waqas, M, Nadeem, H, Alrashidi, AA, Fiaz, S, Rashid, MAR, Almahasheer, H, Zameer, R, Lehre, S, Jaremko, M, Nadeem, M, Saeed-ur-Rehman, H, Al-Saud, NBS, Ramadan, AM, Razzaq, R & Azeem, F 2025, 'Genome-wide identification of potassium transporters and channels in Malus domestica genome', Scientific Reports, vol. 15, no. 1, 32872. https://doi.org/10.1038/s41598-025-18251-z

TY - JOUR

T1 - Genome-wide identification of potassium transporters and channels in Malus domestica genome

AU - Waqas, Muhammad

AU - Nadeem, Habibullah

AU - Alrashidi, Ayshah Aysh

AU - Fiaz, Sajid

AU - Rashid, Muhammad Abdul Rehman

AU - Almahasheer, Hanan

AU - Zameer, Roshan

AU - Lehre, Sanaullah

AU - Jaremko, Mariusz

AU - Nadeem, Majid

AU - Saeed-ur-Rehman, Hafiz

AU - Al-Saud, Najla B.S.

AU - Ramadan, Ahmed M.

AU - Razzaq, Roha

AU - Azeem, Farrukh

PY - 2025/12

Y1 - 2025/12

N2 - Potassium (K+) is an essential nutrient for plants. It contributes to most physiological and biochemical pathways for plant metabolism, growth, and development. It is the most available plant nutrient, comprising 10–15% of plant weight. Plants have a sophisticated system of K+ transporters and channels for distribution in plant body. Apple is one of the most consumed fruits in the world. Its fruit quality and yield are positively affected by K+. However, limited information is available about K+ transport systems in Apple. In this study, 47 candidate genes (26 K+ transporters and 21 K+ channels) have been identified in Apple (Malus domestica) genome. The phylogenetic comparisons with other plants (Glycine max, Arabidopsis thaliana, and Oryza sativa) indicated that the K+ transport system is much conserved among different plants. The analysis of Gene structure showed the presence of specific introns and exon patterns for these gene families. Transcriptomic data analysis and RT-qPCR demonstrated significant variations in the transcript abundance of these genes in response to abiotic stresses. The current project represents the first report about the K+ transport system in Apple. Therefore, it may act as a starting point for further functional characterizations.

AB - Potassium (K+) is an essential nutrient for plants. It contributes to most physiological and biochemical pathways for plant metabolism, growth, and development. It is the most available plant nutrient, comprising 10–15% of plant weight. Plants have a sophisticated system of K+ transporters and channels for distribution in plant body. Apple is one of the most consumed fruits in the world. Its fruit quality and yield are positively affected by K+. However, limited information is available about K+ transport systems in Apple. In this study, 47 candidate genes (26 K+ transporters and 21 K+ channels) have been identified in Apple (Malus domestica) genome. The phylogenetic comparisons with other plants (Glycine max, Arabidopsis thaliana, and Oryza sativa) indicated that the K+ transport system is much conserved among different plants. The analysis of Gene structure showed the presence of specific introns and exon patterns for these gene families. Transcriptomic data analysis and RT-qPCR demonstrated significant variations in the transcript abundance of these genes in response to abiotic stresses. The current project represents the first report about the K+ transport system in Apple. Therefore, it may act as a starting point for further functional characterizations.

KW - Auxin

KW - Genomic insights

KW - Indole acetic acid

KW - K channels

KW - RNA-seq

UR - https://www.scopus.com/pages/publications/105017185832

U2 - 10.1038/s41598-025-18251-z

DO - 10.1038/s41598-025-18251-z

M3 - Article

C2 - 40999009

AN - SCOPUS:105017185832

SN - 2045-2322

VL - 15

JO - Scientific Reports

JF - Scientific Reports

IS - 1

M1 - 32872

ER -

Genome-wide identification of potassium transporters and channels in Malus domestica genome

Abstract

Keywords

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