Genome-Wide Identification, Genomic Organization, and Characterization of Potassium Transport-Related Genes in Cajanus cajan and Their Role in Abiotic Stress

Siddique, Muhammad Hussnain; Babar, Naeem Iqbal; Zameer, Roshan; Muzammil, Saima; Nahid, Nazia; Ijaz, Usman; Masroor, Ashir; Nadeem, Majid; Rashid, Muhammad Abdul Rehman; Hashem, Abeer; Azeem, Farrukh

doi:10.3390/plants10112238

Cited by 12 publications

(11 citation statements)

References 66 publications

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“…Some transporters, namely HvHAK1 , HvAKT2 , OsHAK1 , and OsHAK5 , have been shown to be involved in the uptake of K + in the roots [ 53 , 54 ]. Expression analysis in Cajanus cajan revealed that several K + transport genes, that is, CcHAK6 , CcHAK15 , CcAKT2 , and CcHKT1 , were up-regulated in response to drought stress [ 55 ]. Notably, the K content in the roots of P. ussuriensis was significantly higher than that of Na and Ca under PEG-induced drought stress ( Figure 9 A–C).…”

Section: Discussionmentioning

confidence: 99%

Characterization of the Gene Expression Profile Response to Drought Stress in Populus ussuriensis Using PacBio SMRT and Illumina Sequencing

Liu

et al. 2022

IJMS

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In this study, we characterized the gene expression profile in the roots of Populus ussuriensis at 0, 6, 12, 24, 48 and 120 h after the start of polyethylene glycol (PEG)-induced drought stress using PacBio single-molecule real-time sequencing (SMRT-seq) and Illumina RNA sequencing. Compared to the control, 2244 differentially expressed genes (DEGs) were identified, and many of these DEGs were associated with the signal transduction, antioxidant system, ion accumulation and drought-inducing proteins. Changes in certain physiological and biochemical indexes, such as antioxidant activity and the contents of Ca2+, proline, and total soluble sugars, were further confirmed in P. ussuriensis roots. Furthermore, most of the differentially expressed transcription factors were members of the AP2/ERF, C2H2, MYB, NAC, C2C2 and WRKY families. Additionally, based on PacBio SMRT-seq results, 5955 long non-coding RNAs and 700 alternative splicing events were identified. Our results provide a global view of the gene expression profile that contributes to drought resistance in P. ussuriensis and meaningful information for genetic engineering research in the future.

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Section: Discussionmentioning

confidence: 99%

Characterization of the Gene Expression Profile Response to Drought Stress in Populus ussuriensis Using PacBio SMRT and Illumina Sequencing

Liu

et al. 2022

IJMS

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“…The conserved amino acid sequences of six KUP/HAK/KT domains are GDLGTSPLY, ANDDNGEGG, GDGVLTPAIS, GSEAMFADLGHF, AYGIAVV, and FRCIVIYGYKD, respectively. All HAK members contain at least two KUP/HAK/KT domains, which were similar to those HAKs members from Gossypium raimondii [ 28 ] and Cajanus cajan [ 29 ].…”

Section: Resultsmentioning

confidence: 71%

Genome-wide characterization and expression analysis of the HAK gene family in response to abiotic stresses in Medicago

Tian³

et al. 2022

BMC Genomics

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The high-affinity K+ transporter (HAK) family plays a vital role in K+ uptake and transport as well as in salt and drought stress responses. In the present study, we identified 22 HAK genes in each Medicago truncatula and Medicago sativa genome. Phylogenetic analysis suggested that these HAK proteins could be divided into four clades, and the members of the same subgroup share similar gene structure and conserved motifs. Many cis-acting elements related with defense and stress were found in their promoter region. In addition, gene expression profiles analyzed with genechip and transcriptome data showed that these HAK genes exhibited distinct expression pattern in different tissues, and in response to salt and drought treatments. Furthermore, co-expression analysis showed that 6 homologous HAK hub gene pairs involved in direct network interactions. RT-qPCR verified that the expression level of six HAK gene pairs was induced by NaCl and mannitol treatment to different extents. In particular, MtHK2/7/12 from M. truncatula and MsHAK2/6/7 from M. sativa were highly induced. The expression level of MsHAK1/2/11 determined by RT-qPCR showed significantly positive correlation with transcriptome data. In conclusion, our study shows that HAK genes play a key role in response to various abiotic stresses in Medicago, and the highly inducible candidate HAK genes could be used for further functional studies and molecular breeding in Medicago.

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“…Among K + channels, the presence of ANK, Ion_trans_2, and KHA domains in the Shaker proteins, similar to Arabidopsis K + channels, suggests their functional similarities ( Keisham et al., 2018 ). Likewise, the occurrence of the significantly conserved residues, i.e., GYGD and RSXpS/pTXP, in MiTPKs indicates potential functional similarities in M. indica and other plants ( Ge et al., 2020 ; Siddique et al., 2021 ).…”

Section: Discussionmentioning

confidence: 99%

“…The current study identified 37 potential genes of the K + transport system in M. indica genome. The number of PTGs is more or less similar in major plant groups represented by V. vinifera , Glycine max , Triticum aestivum , Vigna radiata , C. cajan , and A. thaliana ( Cuéllar et al., 2010 ; Isayenkov et al., 2011 ; Chen et al., 2017 ; Azeem et al., 2018 ; Azeem et al., 2021a ; Azeem et al., 2021b ; Ge et al., 2020 ; Siddique et al., 2021 ; Cai et al., 2021 ). It not only indicates the evolutionary conservation of PTGs in these plants but also predicts the existence of similar genetic mechanisms for K + in other fruit trees.…”

Section: Discussionmentioning

confidence: 99%

Computational analysis and expression profiling of potassium transport-related gene families in mango (Mangifera indica) indicate their role in stress response and fruit development

et al. 2023

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Mango (Mangifera indica) fruit is known for its taste, health benefits, and drought tolerance. Potassium (K+) is one of the most abundant ions in a plant cell. It is important for various biological functions related to plant growth, development, and flowering/fruiting. It significantly contributes to fruit yield, quality, and drought tolerance in plants. However, molecular mechanisms comprising K+ transport in mango are least known. In the present study, 37 members of K+ transport-related genes (PTGs) were identified in mango, which include 22 K+ transporters (16 HAKs, 1 HKT, and 6 KEAs) and 15 K+ channels (6 TPKs and 8 Shakers). All PTGs were predicted to be expressed at the plasma membrane and possess characteristic motifs and domains. Phylogenetic analysis identified a strong kinship of PTGs among Oryza sativa, Arabidopsis thaliana, Cicer arietinum, Malus domestica, and M. indica. The promoter analysis identified 60 types of cis-elements related to various biological processes. RNA-seq-based expression profiling identified that MiTPK1.2, MiHAK1, MiHAK2.1, HAK6.1, and MiAKT1.1 were most upregulated in roots and that MiKEA2, MiAKT2, and MiAKT1 were upregulated in leaves. Moreover, MiAKT6, MiHAK1.1, MiKAT2, MiKAT2.1, MiHKT1, MiTPK1.1, MiHAK7, and MiHAK12 were highly expressed during the five growth stages of mango fruit. The current study is the first comprehensive report on K+ transport system in tropical fruits. Therefore, it will provide the foundation knowledge for the functional characterization of K+ genes in mango and related plants.

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Genome-Wide Identification, Genomic Organization, and Characterization of Potassium Transport-Related Genes in Cajanus cajan and Their Role in Abiotic Stress

Cited by 12 publications

References 66 publications

Characterization of the Gene Expression Profile Response to Drought Stress in Populus ussuriensis Using PacBio SMRT and Illumina Sequencing

Characterization of the Gene Expression Profile Response to Drought Stress in Populus ussuriensis Using PacBio SMRT and Illumina Sequencing

Genome-wide characterization and expression analysis of the HAK gene family in response to abiotic stresses in Medicago

Computational analysis and expression profiling of potassium transport-related gene families in mango (Mangifera indica) indicate their role in stress response and fruit development

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