Comparative phylogenetic analysis of aquaporins provides insight into the gene family expansion and evolution in plants and their role in drought tolerant and susceptible chickpea cultivars

Comparative phylogenetic analysis of aquaporins provides insight into the gene family expansion and evolution in plants and their role in drought tolerant and susceptible chickpea cultivars

Aquaporins (AQPs) are water channel proteins that play a significant role in drought stress. Although the AQPs identified in multiple plant species, there is no detailed evolutionary and comparative study of AQPs regarding chickpea plant. The current study involved evolutionary analyses coupled with...

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Veröffentlicht in:Genomics (San Diego, Calif.) Calif.), 2020-01, Vol.112 (1), p.263-275
Hauptverfasser: Hussain, Athar, Tanveer, Rabbia, Mustafa, Ghulam, Farooq, Muhammed, Amin, Imran, Mansoor, Shahid
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Aquaporins
Ar/R selectivity filters
Conserved motifs
Expression
Froger's positions
Phylogenetic tree
Reverse transcriptase (RT) PCR
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Tanveer, Rabbia
Mustafa, Ghulam
Farooq, Muhammed
Amin, Imran
Mansoor, Shahid
description Aquaporins (AQPs) are water channel proteins that play a significant role in drought stress. Although the AQPs identified in multiple plant species, there is no detailed evolutionary and comparative study of AQPs regarding chickpea plant. The current study involved evolutionary analyses coupled with promoter and expression analyses of chickpea AQPs (CaAQPs). A total of 924 non-redundant AQPs were studied in 24 plant species including algae, mosses, lycophytes, monocots and dicots. Phylogenetic analysis demonstrated a clear divergence of eight AQP subfamilies (LIPs, SIPs, GIPs, NIPs, XIPs, PIPs, HIPs and TIPs). The comparative phylogenetic trees of AQP subfamilies among Arabidopsis, soybean, common bean, maize and chickpea demonstrated that the AQPs were highly species-specific. Interestingly, the dual NPA motif was conserved in all species. However, the ar/R selectivity filter signatures [W/T/S/N/G/A]-[V/S/L/I/A]-[S/G/A]-R (in NIPs), F-H-T-R (in PIPs), [H/N/Q/S]-[A/I/L/S/V]-[A/G]-[A/C/L/M/R/V] (in TIPs) and [V/I/L/M]-[V/I/A/F/M]-[A/S/F/C]-[N/F/L/I/A/S (in SIPs) were found in five species. Moreover, the Froger's positions (P1-P5) were found as [F/L/Y]-[S/T]-A-Y-[L/I/M/V/F] (in NIPs), [Q/E/M]-S-A-F-W (in PIPs), [A/L/S/T/V]-[A/C/N/S/T/V]-[P/R/S]-[Y/N/F]-[W/Q] (in TIPs) and [I/M/F]-[A/V]-[A/V]-Y-W (in SIPs). The MEME motif analyses showed that most of the motifs were specific to subfamily and subgroups. Tissue-specific expression profiling of CaAQPs revealed that CaTIPs and CaPIPs are highly expressed in most of the tissues, while CaNIPs and CaSIPs have low expression. In promoter analysis of CaAQPs, multiple stress-related cis-acting elements e.g. MYB, MYC, ABRE, etc. were found. Semi-quantitative RT-PCR analysis showed that CaPIP2;3 and CaNIP3;1 are positive regulator, while CaSIP1;1 and CaPIP2;1 have a negative role in drought tolerance. The findings and implications of this study are discussed in detail. •The plants AQPs are classified into eight subfamilies (LIPs, SIPs, GIPs, NIPs, XIPs, PIPs, HIPs and TIPs)•The evolutionary direction of AQPs are from LIPs to TIPs•The LIPs, GIPs and HIPs are found only in lower plants•The copy number of AQPs are directly correspondence with the genome size of plant species•The conserved amino acid residues in AQPs diverge with the plant species that might correlate with protein function
doi_str_mv 10.1016/j.ygeno.2019.02.005
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Although the AQPs identified in multiple plant species, there is no detailed evolutionary and comparative study of AQPs regarding chickpea plant. The current study involved evolutionary analyses coupled with promoter and expression analyses of chickpea AQPs (CaAQPs). A total of 924 non-redundant AQPs were studied in 24 plant species including algae, mosses, lycophytes, monocots and dicots. Phylogenetic analysis demonstrated a clear divergence of eight AQP subfamilies (LIPs, SIPs, GIPs, NIPs, XIPs, PIPs, HIPs and TIPs). The comparative phylogenetic trees of AQP subfamilies among Arabidopsis, soybean, common bean, maize and chickpea demonstrated that the AQPs were highly species-specific. Interestingly, the dual NPA motif was conserved in all species. However, the ar/R selectivity filter signatures [W/T/S/N/G/A]-[V/S/L/I/A]-[S/G/A]-R (in NIPs), F-H-T-R (in PIPs), [H/N/Q/S]-[A/I/L/S/V]-[A/G]-[A/C/L/M/R/V] (in TIPs) and [V/I/L/M]-[V/I/A/F/M]-[A/S/F/C]-[N/F/L/I/A/S (in SIPs) were found in five species. Moreover, the Froger's positions (P1-P5) were found as [F/L/Y]-[S/T]-A-Y-[L/I/M/V/F] (in NIPs), [Q/E/M]-S-A-F-W (in PIPs), [A/L/S/T/V]-[A/C/N/S/T/V]-[P/R/S]-[Y/N/F]-[W/Q] (in TIPs) and [I/M/F]-[A/V]-[A/V]-Y-W (in SIPs). The MEME motif analyses showed that most of the motifs were specific to subfamily and subgroups. Tissue-specific expression profiling of CaAQPs revealed that CaTIPs and CaPIPs are highly expressed in most of the tissues, while CaNIPs and CaSIPs have low expression. In promoter analysis of CaAQPs, multiple stress-related cis-acting elements e.g. MYB, MYC, ABRE, etc. were found. Semi-quantitative RT-PCR analysis showed that CaPIP2;3 and CaNIP3;1 are positive regulator, while CaSIP1;1 and CaPIP2;1 have a negative role in drought tolerance. The findings and implications of this study are discussed in detail. •The plants AQPs are classified into eight subfamilies (LIPs, SIPs, GIPs, NIPs, XIPs, PIPs, HIPs and TIPs)•The evolutionary direction of AQPs are from LIPs to TIPs•The LIPs, GIPs and HIPs are found only in lower plants•The copy number of AQPs are directly correspondence with the genome size of plant species•The conserved amino acid residues in AQPs diverge with the plant species that might correlate with protein function</description><identifier>ISSN: 0888-7543</identifier><identifier>EISSN: 1089-8646</identifier><identifier>DOI: 10.1016/j.ygeno.2019.02.005</identifier><identifier>PMID: 30826442</identifier><language>eng</language><publisher>United States: Elsevier Inc</publisher><subject>Aquaporins ; Ar/R selectivity filters ; Conserved motifs ; Expression ; Froger's positions ; Phylogenetic tree ; Reverse transcriptase (RT) PCR</subject><ispartof>Genomics (San Diego, Calif.), 2020-01, Vol.112 (1), p.263-275</ispartof><rights>2019 Elsevier Inc.</rights><rights>Copyright © 2019 Elsevier Inc. 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Although the AQPs identified in multiple plant species, there is no detailed evolutionary and comparative study of AQPs regarding chickpea plant. The current study involved evolutionary analyses coupled with promoter and expression analyses of chickpea AQPs (CaAQPs). A total of 924 non-redundant AQPs were studied in 24 plant species including algae, mosses, lycophytes, monocots and dicots. Phylogenetic analysis demonstrated a clear divergence of eight AQP subfamilies (LIPs, SIPs, GIPs, NIPs, XIPs, PIPs, HIPs and TIPs). The comparative phylogenetic trees of AQP subfamilies among Arabidopsis, soybean, common bean, maize and chickpea demonstrated that the AQPs were highly species-specific. Interestingly, the dual NPA motif was conserved in all species. However, the ar/R selectivity filter signatures [W/T/S/N/G/A]-[V/S/L/I/A]-[S/G/A]-R (in NIPs), F-H-T-R (in PIPs), [H/N/Q/S]-[A/I/L/S/V]-[A/G]-[A/C/L/M/R/V] (in TIPs) and [V/I/L/M]-[V/I/A/F/M]-[A/S/F/C]-[N/F/L/I/A/S (in SIPs) were found in five species. Moreover, the Froger's positions (P1-P5) were found as [F/L/Y]-[S/T]-A-Y-[L/I/M/V/F] (in NIPs), [Q/E/M]-S-A-F-W (in PIPs), [A/L/S/T/V]-[A/C/N/S/T/V]-[P/R/S]-[Y/N/F]-[W/Q] (in TIPs) and [I/M/F]-[A/V]-[A/V]-Y-W (in SIPs). The MEME motif analyses showed that most of the motifs were specific to subfamily and subgroups. Tissue-specific expression profiling of CaAQPs revealed that CaTIPs and CaPIPs are highly expressed in most of the tissues, while CaNIPs and CaSIPs have low expression. In promoter analysis of CaAQPs, multiple stress-related cis-acting elements e.g. MYB, MYC, ABRE, etc. were found. Semi-quantitative RT-PCR analysis showed that CaPIP2;3 and CaNIP3;1 are positive regulator, while CaSIP1;1 and CaPIP2;1 have a negative role in drought tolerance. The findings and implications of this study are discussed in detail. •The plants AQPs are classified into eight subfamilies (LIPs, SIPs, GIPs, NIPs, XIPs, PIPs, HIPs and TIPs)•The evolutionary direction of AQPs are from LIPs to TIPs•The LIPs, GIPs and HIPs are found only in lower plants•The copy number of AQPs are directly correspondence with the genome size of plant species•The conserved amino acid residues in AQPs diverge with the plant species that might correlate with protein function</description><subject>Aquaporins</subject><subject>Ar/R selectivity filters</subject><subject>Conserved motifs</subject><subject>Expression</subject><subject>Froger's positions</subject><subject>Phylogenetic tree</subject><subject>Reverse transcriptase (RT) PCR</subject><issn>0888-7543</issn><issn>1089-8646</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2020</creationdate><recordtype>article</recordtype><recordid>eNp9kU2O1DAQhSMEYpqBEyAhL9kklB0n7SxYoBZ_0khsYG05TmXaTRJnbKdFDsfdqHQPLFmVyv7eqyq9LHvNoeDA63enYr3HyRcCeFOAKACqJ9mOg2pyVcv6abYDpVS-r2R5k72I8QQATanE8-ymBCVqKcUu-33w42yCSe6MbD6ugydPTM4yM5lhjS4y3zPzsJjZBzdFNgd_dh1GRo27PyaqybN0RLYJWW9GN6wMf82G_v1ENh3Dsx-WtHVuYvNgphQv76RygQU_4PbRBb9shon6QMwFiUu0OCfXEmOPzv6c0TC7DLSvCfFl9qw3Q8RXj_U2-_Hp4_fDl_zu2-evhw93uZUgU66QV41VILnA3pjGCt4b2SBSqZRoJEKDeyPaXlYg6rbGurcttFhL6DvFy9vs7dWXrn9YMCY9OtproFPQL1ELrvZNRWIgtLyiNvgYA_Z6Dm40YdUc9JabPulLbnrLTYPQlBup3jwOWNoRu3-av0ER8P4KIJ15dhh0tA4ni50LaJPuvPvvgD-NgbFC</recordid><startdate>202001</startdate><enddate>202001</enddate><creator>Hussain, Athar</creator><creator>Tanveer, Rabbia</creator><creator>Mustafa, Ghulam</creator><creator>Farooq, Muhammed</creator><creator>Amin, Imran</creator><creator>Mansoor, Shahid</creator><general>Elsevier Inc</general><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope><orcidid>https://orcid.org/0000-0003-0942-2982</orcidid></search><sort><creationdate>202001</creationdate><title>Comparative phylogenetic analysis of aquaporins provides insight into the gene family expansion and evolution in plants and their role in drought tolerant and susceptible chickpea cultivars</title><author>Hussain, Athar ; Tanveer, Rabbia ; Mustafa, Ghulam ; Farooq, Muhammed ; Amin, Imran ; Mansoor, Shahid</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c404t-8e159c80412efaa9c21fa49ee1fa58294e09e7a2bf45026b6e6fcb0be640fd813</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2020</creationdate><topic>Aquaporins</topic><topic>Ar/R selectivity filters</topic><topic>Conserved motifs</topic><topic>Expression</topic><topic>Froger's positions</topic><topic>Phylogenetic tree</topic><topic>Reverse transcriptase (RT) PCR</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Hussain, Athar</creatorcontrib><creatorcontrib>Tanveer, Rabbia</creatorcontrib><creatorcontrib>Mustafa, Ghulam</creatorcontrib><creatorcontrib>Farooq, Muhammed</creatorcontrib><creatorcontrib>Amin, Imran</creatorcontrib><creatorcontrib>Mansoor, Shahid</creatorcontrib><collection>PubMed</collection><collection>CrossRef</collection><collection>MEDLINE - Academic</collection><jtitle>Genomics (San Diego, Calif.)</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Hussain, Athar</au><au>Tanveer, Rabbia</au><au>Mustafa, Ghulam</au><au>Farooq, Muhammed</au><au>Amin, Imran</au><au>Mansoor, Shahid</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Comparative phylogenetic analysis of aquaporins provides insight into the gene family expansion and evolution in plants and their role in drought tolerant and susceptible chickpea cultivars</atitle><jtitle>Genomics (San Diego, Calif.)</jtitle><addtitle>Genomics</addtitle><date>2020-01</date><risdate>2020</risdate><volume>112</volume><issue>1</issue><spage>263</spage><epage>275</epage><pages>263-275</pages><issn>0888-7543</issn><eissn>1089-8646</eissn><abstract>Aquaporins (AQPs) are water channel proteins that play a significant role in drought stress. Although the AQPs identified in multiple plant species, there is no detailed evolutionary and comparative study of AQPs regarding chickpea plant. The current study involved evolutionary analyses coupled with promoter and expression analyses of chickpea AQPs (CaAQPs). A total of 924 non-redundant AQPs were studied in 24 plant species including algae, mosses, lycophytes, monocots and dicots. Phylogenetic analysis demonstrated a clear divergence of eight AQP subfamilies (LIPs, SIPs, GIPs, NIPs, XIPs, PIPs, HIPs and TIPs). The comparative phylogenetic trees of AQP subfamilies among Arabidopsis, soybean, common bean, maize and chickpea demonstrated that the AQPs were highly species-specific. Interestingly, the dual NPA motif was conserved in all species. However, the ar/R selectivity filter signatures [W/T/S/N/G/A]-[V/S/L/I/A]-[S/G/A]-R (in NIPs), F-H-T-R (in PIPs), [H/N/Q/S]-[A/I/L/S/V]-[A/G]-[A/C/L/M/R/V] (in TIPs) and [V/I/L/M]-[V/I/A/F/M]-[A/S/F/C]-[N/F/L/I/A/S (in SIPs) were found in five species. Moreover, the Froger's positions (P1-P5) were found as [F/L/Y]-[S/T]-A-Y-[L/I/M/V/F] (in NIPs), [Q/E/M]-S-A-F-W (in PIPs), [A/L/S/T/V]-[A/C/N/S/T/V]-[P/R/S]-[Y/N/F]-[W/Q] (in TIPs) and [I/M/F]-[A/V]-[A/V]-Y-W (in SIPs). The MEME motif analyses showed that most of the motifs were specific to subfamily and subgroups. Tissue-specific expression profiling of CaAQPs revealed that CaTIPs and CaPIPs are highly expressed in most of the tissues, while CaNIPs and CaSIPs have low expression. In promoter analysis of CaAQPs, multiple stress-related cis-acting elements e.g. MYB, MYC, ABRE, etc. were found. Semi-quantitative RT-PCR analysis showed that CaPIP2;3 and CaNIP3;1 are positive regulator, while CaSIP1;1 and CaPIP2;1 have a negative role in drought tolerance. The findings and implications of this study are discussed in detail. •The plants AQPs are classified into eight subfamilies (LIPs, SIPs, GIPs, NIPs, XIPs, PIPs, HIPs and TIPs)•The evolutionary direction of AQPs are from LIPs to TIPs•The LIPs, GIPs and HIPs are found only in lower plants•The copy number of AQPs are directly correspondence with the genome size of plant species•The conserved amino acid residues in AQPs diverge with the plant species that might correlate with protein function</abstract><cop>United States</cop><pub>Elsevier Inc</pub><pmid>30826442</pmid><doi>10.1016/j.ygeno.2019.02.005</doi><tpages>13</tpages><orcidid>https://orcid.org/0000-0003-0942-2982</orcidid><oa>free_for_read</oa></addata></record>
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subjects Aquaporins
Ar/R selectivity filters
Conserved motifs
Expression
Froger's positions
Phylogenetic tree
Reverse transcriptase (RT) PCR
title Comparative phylogenetic analysis of aquaporins provides insight into the gene family expansion and evolution in plants and their role in drought tolerant and susceptible chickpea cultivars
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