The button mushroom Agaricus bispor

The button mushroom Agaricus bisporus is cultivated almost worldwide. Its cultivation is standardized
and a temperature of 16–19 C is needed during the fruiting period. The development of A. bisporus cultivars able to fruit at higher temperature (FHT) represents a promising alternative to reduce energy costs
during cultivation in hot countries as well as in temperate countries during the hot season. A. bisporus var.
burnettii is able to fruit at 25 C. Understanding the biological mechanisms that underlie such a thermotolerance is a prerequisite to further development of breeding strains. The foundation of the FHT ability of
the var. burnettii was dissected using a combination of candidate gene approaches and genetic tools.
Transcript proﬁling of A. bisporus var. burnettii at two developmental stages (primordium P and sporophore SP) under two fruit-producing temperature conditions (17 C and 25 C) were established by
cDNA-AFLP. The expression patterns were more similar within the same stage at the two different temperatures rather than between stages under the same temperature. Only one transcript-derived fragment
(TDF) sequence differentially expressed between temperatures was recovered but it could not be further
characterized. Twenty-nine TDF sequences differentially expressed between development stages were
obtained. The phenotypic assessment of an intervarietal A. bisporus var. bisporus A. bisporus var. burnettii progeny demonstrated the complex inheritance of the FHT trait. Two quantitative trait loci (QTL)
involved in the number of fruit bodies yielded at 25 C were found on LG II and LG VI. Two functional candidate genes known to be potentially involved in A. bisporus thermo-tolerance, a heat shock protein
(HSP70) gene and a gene coding for a para-aminobenzoic acid synthase (PABA), were found in the vicinity
of the QTL on LG II. Several positional candidate genes have been also identiﬁed in the conﬁdence interval
of the QTL on LG VI and are promising for further ﬁne mapping purpose.

The button mushroom Agaricus bisporus is cultivated almost worldwide. Its cultivation is standardized
and a temperature of 16–19 C is needed during the fruiting period. The development of A. bisporus cultivars able to fruit at higher temperature (FHT) represents a promising alternative to reduce energy costs
during cultivation in hot countries as well as in temperate countries during the hot season. A. bisporus var.
burnettii is able to fruit at 25 C. Understanding the biological mechanisms that underlie such a thermotolerance is a prerequisite to further development of breeding strains. The foundation of the FHT ability of
the var. burnettii was dissected using a combination of candidate gene approaches and genetic tools.
Transcript proﬁling of A. bisporus var. burnettii at two developmental stages (primordium P and sporophore SP) under two fruit-producing temperature conditions (17 C and 25 C) were established by
cDNA-AFLP. The expression patterns were more similar within the same stage at the two different temperatures rather than between stages under the same temperature. Only one transcript-derived fragment
(TDF) sequence differentially expressed between temperatures was recovered but it could not be further
characterized. Twenty-nine TDF sequences differentially expressed between development stages were
obtained. The phenotypic assessment of an intervarietal A. bisporus var. bisporus  A. bisporus var. burnettii progeny demonstrated the complex inheritance of the FHT trait. Two quantitative trait loci (QTL)
involved in the number of fruit bodies yielded at 25 C were found on LG II and LG VI. Two functional candidate genes known to be potentially involved in A. bisporus thermo-tolerance, a heat shock protein
(HSP70) gene and a gene coding for a para-aminobenzoic acid synthase (PABA), were found in the vicinity
of the QTL on LG II. Several positional candidate genes have been also identiﬁed in the conﬁdence interval
of the QTL on LG VI and are promising for further ﬁne mapping purpose.

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The button mushroom Agaricus bisporus is cultivated almost worldwide. Its cultivation is standardizedand a temperature of 16–19 C is needed during the fruiting period. The development of A. bisporus cultivars able to fruit at higher temperature (FHT) represents a promising alternative to reduce energy costsduring cultivation in hot countries as well as in temperate countries during the hot season. A. bisporus var.burnettii is able to fruit at 25 C. Understanding the biological mechanisms that underlie such a thermotolerance is a prerequisite to further development of breeding strains. The foundation of the FHT ability ofthe var. burnettii was dissected using a combination of candidate gene approaches and genetic tools.Transcript proﬁling of A. bisporus var. burnettii at two developmental stages (primordium P and sporophore SP) under two fruit-producing temperature conditions (17 C and 25 C) were established bycDNA-AFLP. The expression patterns were more similar within the same stage at the two different temperatures rather than between stages under the same temperature. Only one transcript-derived fragment(TDF) sequence differentially expressed between temperatures was recovered but it could not be furthercharacterized. Twenty-nine TDF sequences differentially expressed between development stages wereobtained. The phenotypic assessment of an intervarietal A. bisporus var. bisporus A. bisporus var. burnettii progeny demonstrated the complex inheritance of the FHT trait. Two quantitative trait loci (QTL)involved in the number of fruit bodies yielded at 25 C were found on LG II and LG VI. Two functional candidate genes known to be potentially involved in A. bisporus thermo-tolerance, a heat shock protein(HSP70) gene and a gene coding for a para-aminobenzoic acid synthase (PABA), were found in the vicinityof the QTL on LG II. Several positional candidate genes have been also identiﬁed in the conﬁdence intervalof the QTL on LG VI and are promising for further ﬁne mapping purpose.

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การสนับสนุนเครื่องมือแปลภาษา: กรีก, กันนาดา, กาลิเชียน, คลิงออน, คอร์สิกา, คาซัค, คาตาลัน, คินยารวันดา, คีร์กิซ, คุชราต, จอร์เจีย, จีน, จีนดั้งเดิม, ชวา, ชิเชวา, ซามัว, ซีบัวโน, ซุนดา, ซูลู, ญี่ปุ่น, ดัตช์, ตรวจหาภาษา, ตุรกี, ทมิฬ, ทาจิก, ทาทาร์, นอร์เวย์, บอสเนีย, บัลแกเรีย, บาสก์, ปัญจาป, ฝรั่งเศส, พาชตู, ฟริเชียน, ฟินแลนด์, ฟิลิปปินส์, ภาษาอินโดนีเซี, มองโกเลีย, มัลทีส, มาซีโดเนีย, มาราฐี, มาลากาซี, มาลายาลัม, มาเลย์, ม้ง, ยิดดิช, ยูเครน, รัสเซีย, ละติน, ลักเซมเบิร์ก, ลัตเวีย, ลาว, ลิทัวเนีย, สวาฮิลี, สวีเดน, สิงหล, สินธี, สเปน, สโลวัก, สโลวีเนีย, อังกฤษ, อัมฮาริก, อาร์เซอร์ไบจัน, อาร์เมเนีย, อาหรับ, อิกโบ, อิตาลี, อุยกูร์, อุสเบกิสถาน, อูรดู, ฮังการี, ฮัวซา, ฮาวาย, ฮินดี, ฮีบรู, เกลิกสกอต, เกาหลี, เขมร, เคิร์ด, เช็ก, เซอร์เบียน, เซโซโท, เดนมาร์ก, เตลูกู, เติร์กเมน, เนปาล, เบงกอล, เบลารุส, เปอร์เซีย, เมารี, เมียนมา (พม่า), เยอรมัน, เวลส์, เวียดนาม, เอสเปอแรนโต, เอสโทเนีย, เฮติครีโอล, แอฟริกา, แอลเบเนีย, โคซา, โครเอเชีย, โชนา, โซมาลี, โปรตุเกส, โปแลนด์, โยรูบา, โรมาเนีย, โอเดีย (โอริยา), ไทย, ไอซ์แลนด์, ไอร์แลนด์, การแปลภาษา.