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Potential Molecular Mimicry Proteins Responsive to α-pinene in Bursaphelenchus xylophilus.

Identifieur interne : 000020 ( Main/Corpus ); précédent : 000019; suivant : 000021

Potential Molecular Mimicry Proteins Responsive to α-pinene in Bursaphelenchus xylophilus.

Auteurs : Fanli Meng ; Yongxia Li ; Zhenkai Liu ; Xuan Wang ; Yuqian Feng ; Wei Zhang ; Xingyao Zhang

Source :

RBID : pubmed:32024175

Abstract

:Bursaphelenchus xylophilus is a nematode species that has damaged pine trees worldwide, but its pathogenesis has not been fully characterized. α-pinene helps protect host species during the early B. xylophilus infection and colonization stages. In this study, we identified potential molecular mimicry proteins based on a comparative transcriptomic analysis of B. xylophilus. The expression levels of three genes encoding secreted B. xylophilus proteins were influenced by α-pinene. We cloned one gene encoding a thaumatin-like protein, Bx-tlp-2 (accession number MK000287), and another gene encoding a cysteine proteinase inhibitor, Bx-cpi (accession number MK000288). Additionally, α-pinene appeared to induce Bx-tlp-1 expression, but had the opposite effect on Bx-cpi expression. An analysis of the expression of the potential molecular mimicry proteins in B. xylophilus infecting pine trees revealed that the α-pinene content was consistent with the expression levels of Bx-tlp-1 (Bx-cpi) and Pm-tlp (Pm-cpi) over time. Thus, these genes likely have important roles contributing to the infection of pine species by B. xylophilus. The results of this study may be relevant for future investigations of the functions of Bx-tlp-1, Bx-tlp-2 and Bx-cpi, which may provide a point to explore the relationship between B. xylophilus and host pines.

DOI: 10.3390/ijms21030982
PubMed: 32024175
PubMed Central: PMC7037625

Links to Exploration step

pubmed:32024175

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<b>:</b>
<i>Bursaphelenchus xylophilus</i>
is a nematode species that has damaged pine trees worldwide, but its pathogenesis has not been fully characterized. α-pinene helps protect host species during the early
<i>B. xylophilus</i>
infection and colonization stages. In this study, we identified potential molecular mimicry proteins based on a comparative transcriptomic analysis of
<i>B. xylophilus</i>
. The expression levels of three genes encoding secreted
<i>B. xylophilus</i>
proteins were influenced by α-pinene. We cloned one gene encoding a thaumatin-like protein,
<i>Bx-tlp-2</i>
(accession number MK000287), and another gene encoding a cysteine proteinase inhibitor,
<i>Bx-cpi</i>
(accession number MK000288). Additionally, α-pinene appeared to induce
<i>Bx-tlp-1</i>
expression, but had the opposite effect on
<i>Bx-cpi</i>
expression. An analysis of the expression of the potential molecular mimicry proteins in
<i>B. xylophilus</i>
infecting pine trees revealed that the α-pinene content was consistent with the expression levels of
<i>Bx-tlp-1</i>
(
<i>Bx-cpi</i>
) and
<i>Pm-tlp</i>
(
<i>Pm-cpi</i>
) over time. Thus, these genes likely have important roles contributing to the infection of pine species by
<i>B. xylophilus</i>
. The results of this study may be relevant for future investigations of the functions of
<i>Bx-tlp-1</i>
,
<i>Bx-tlp-2</i>
and
<i>Bx-cpi</i>
, which may provide a point to explore the relationship between
<i>B. xylophilus</i>
and host pines.</div>
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<b>:</b>
<i>Bursaphelenchus xylophilus</i>
is a nematode species that has damaged pine trees worldwide, but its pathogenesis has not been fully characterized. α-pinene helps protect host species during the early
<i>B. xylophilus</i>
infection and colonization stages. In this study, we identified potential molecular mimicry proteins based on a comparative transcriptomic analysis of
<i>B. xylophilus</i>
. The expression levels of three genes encoding secreted
<i>B. xylophilus</i>
proteins were influenced by α-pinene. We cloned one gene encoding a thaumatin-like protein,
<i>Bx-tlp-2</i>
(accession number MK000287), and another gene encoding a cysteine proteinase inhibitor,
<i>Bx-cpi</i>
(accession number MK000288). Additionally, α-pinene appeared to induce
<i>Bx-tlp-1</i>
expression, but had the opposite effect on
<i>Bx-cpi</i>
expression. An analysis of the expression of the potential molecular mimicry proteins in
<i>B. xylophilus</i>
infecting pine trees revealed that the α-pinene content was consistent with the expression levels of
<i>Bx-tlp-1</i>
(
<i>Bx-cpi</i>
) and
<i>Pm-tlp</i>
(
<i>Pm-cpi</i>
) over time. Thus, these genes likely have important roles contributing to the infection of pine species by
<i>B. xylophilus</i>
. The results of this study may be relevant for future investigations of the functions of
<i>Bx-tlp-1</i>
,
<i>Bx-tlp-2</i>
and
<i>Bx-cpi</i>
, which may provide a point to explore the relationship between
<i>B. xylophilus</i>
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