2016
DOI: 10.3389/fmicb.2016.01351
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Silencing of Anopheles stephensi Heme Peroxidase HPX15 Activates Diverse Immune Pathways to Regulate the Growth of Midgut Bacteria

Abstract: Anopheles mosquito midgut harbors a diverse group of endogenous bacteria that grow extensively after the blood feeding and help in food digestion and nutrition in many ways. Although, the growth of endogenous bacteria is regulated by various factors, however, the robust antibacterial immune reactions are generally suppressed in this body compartment by a heme peroxidase HPX15 crosslinked mucins barrier. This barrier is formed on the luminal side of the midgut and blocks the direct interactions and recognition … Show more

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Cited by 16 publications
(24 citation statements)
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“…Phyre 2 software analyses revealed the presence of 47% alpha helices in the secondary structure of AsHPX2 protein (Supplementary Figure S2) indicating that it is a globular protein as suggested by others (Pace and Scholtz, 1998;Kajla et al, 2016b). In addition, this protein also contains 10 heme-binding sites, 13 substrate-binding sites, three calcium-binding sites, and three homodimer interface sites (Supplementary Figure S2) in a way similar to other insect heme-peroxidases (Soudi et al, 2012;Kajla et al, 2016b;Bailey et al, 2017;Choudhury et al, 2019;Kakani et al, 2019). Three-dimensional structure of AsHPX2 protein (TM-score 0.70 ± 0.12) revealed the presence of catalytic quartet (Thr 212 , Ala 430 , Gly 602 , and Arg 669 ), which is positioned toward the protein surface.…”
Section: Sequence and Domain Analysis Of Ashpx2 Proteinsupporting
confidence: 54%
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“…Phyre 2 software analyses revealed the presence of 47% alpha helices in the secondary structure of AsHPX2 protein (Supplementary Figure S2) indicating that it is a globular protein as suggested by others (Pace and Scholtz, 1998;Kajla et al, 2016b). In addition, this protein also contains 10 heme-binding sites, 13 substrate-binding sites, three calcium-binding sites, and three homodimer interface sites (Supplementary Figure S2) in a way similar to other insect heme-peroxidases (Soudi et al, 2012;Kajla et al, 2016b;Bailey et al, 2017;Choudhury et al, 2019;Kakani et al, 2019). Three-dimensional structure of AsHPX2 protein (TM-score 0.70 ± 0.12) revealed the presence of catalytic quartet (Thr 212 , Ala 430 , Gly 602 , and Arg 669 ), which is positioned toward the protein surface.…”
Section: Sequence and Domain Analysis Of Ashpx2 Proteinsupporting
confidence: 54%
“…Furthermore, the 5 upstream region of AsHPX2 gene was analyzed by JASPAR and MatInspector software to identify putative transcription factor binding motifs (TFBM) in its promoter region. Our analyses indicated the binding sites for some major transcription factors such as, GATA (pnr), Rel1, AP-1 (a Jun/Fos dimer) and Broad complex (Br-C) (Supplementary Figure S1) that indicated a tissue-specific immune role of AsHPX2 in a way similar to other insect genes (Senger et al, 2006;Zhu et al, 2007;Garver et al, 2013;Kajla et al, 2016b;Zakovic and Levashina, 2017;Kakani et al, 2019).…”
Section: Cloning and Characterization Of Ashpx2 Genementioning
confidence: 84%
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“…First-strand cDNA was synthesized from total RNA using QuantiTect reverse transcription kit (Qiagen). Expression profile of different genes was carried through semi-quantitative real time PCR using SYBR green supermix in an IQ5 multicolor real-time PCR detection system (Bio-Rad) where ribosomal protein subunit S7 mRNA was used as internal loading control as described before (Salazar et al, 1993; Kajla et al, 2016b). Primer pairs used for different genes were following, S7-Fwd: 5′-GGCGATCATCATCTACGT-3′ and S7-Rev: 5′-GTAGCTGCTGCAAACTTCGG-3′, AsApoLp-III Fwd: 5′-AGCCCAATTTCTTCCAGACC-3′, and AsApoLpIII Rev: 5′-CGGTTGCTTCAGCTCGTT-3′.…”
Section: Methodsmentioning
confidence: 99%