A family of CBF transcription factors plays a major role in reconfiguring the plant transcriptome in response to low-freezing temperature in temperate cereals. In barley, more than 13 HvCBF genes map coincident with the major QTL FR-H2 suggesting them as candidates to explain the function of the locus. Variation in copy number (CNV) of specific HvCBFs was assayed in a panel of 41 barley genotypes using RT-qPCR. Taking advantage of an accurate phenotyping that combined Fv/Fm and field survival, resistance-associated variants within FR-H2 were identified. Genotypes with an increased copy number of HvCBF4 and HvCBF2 (at least ten and eight copies, respectively) showed greater frost resistance. A CAPS marker able to distinguish the CBF2A, CBF2B and CBF2A/B forms was developed and showed that all the higher-ranking genotypes in term of resistance harbour only CBF2A, while other resistant winter genotypes harbour also CBF2B, although at a lower CNV. In addition to the major involvement of the HvCBF4-HvCBF2 genomic segment in the proximal cluster of CBF elements, a negative role of HvCBF3 in the distal cluster was identified. Multiple linear regression models taking into account allelic variation at FR-H1/VRN-H1 explained 0.434 and 0.550 (both at p < 0.001) of the phenotypic variation for Fv/Fm and field survival respectively, while no interaction effect between CNV at the HvCBFs and FR-H1/VRN-H1 was found. Altogether our data suggest a major involvement of the CBF genes located in the proximal cluster, with no apparent involvement of the central cluster contrary to what was reported for wheat.

Copy number variation at the HvCBF4–HvCBF2 genomic segment is a major component of frost resistance in barley / Francia, Enrico; Morcia, Caterina; Pasquariello, Marianna; Mazzamurro, Valentina; Milc, Justyna Anna; Rizza, Fulvia; Terzi, Valeria; Pecchioni, Nicola. - In: PLANT MOLECULAR BIOLOGY. - ISSN 0167-4412. - 92:1(2016), pp. 161-175. [10.1007/s11103-016-0505-4]

Copy number variation at the HvCBF4–HvCBF2 genomic segment is a major component of frost resistance in barley

FRANCIA, Enrico;PASQUARIELLO, Marianna;MAZZAMURRO, VALENTINA;MILC, Justyna Anna;PECCHIONI, Nicola
2016

Abstract

A family of CBF transcription factors plays a major role in reconfiguring the plant transcriptome in response to low-freezing temperature in temperate cereals. In barley, more than 13 HvCBF genes map coincident with the major QTL FR-H2 suggesting them as candidates to explain the function of the locus. Variation in copy number (CNV) of specific HvCBFs was assayed in a panel of 41 barley genotypes using RT-qPCR. Taking advantage of an accurate phenotyping that combined Fv/Fm and field survival, resistance-associated variants within FR-H2 were identified. Genotypes with an increased copy number of HvCBF4 and HvCBF2 (at least ten and eight copies, respectively) showed greater frost resistance. A CAPS marker able to distinguish the CBF2A, CBF2B and CBF2A/B forms was developed and showed that all the higher-ranking genotypes in term of resistance harbour only CBF2A, while other resistant winter genotypes harbour also CBF2B, although at a lower CNV. In addition to the major involvement of the HvCBF4-HvCBF2 genomic segment in the proximal cluster of CBF elements, a negative role of HvCBF3 in the distal cluster was identified. Multiple linear regression models taking into account allelic variation at FR-H1/VRN-H1 explained 0.434 and 0.550 (both at p < 0.001) of the phenotypic variation for Fv/Fm and field survival respectively, while no interaction effect between CNV at the HvCBFs and FR-H1/VRN-H1 was found. Altogether our data suggest a major involvement of the CBF genes located in the proximal cluster, with no apparent involvement of the central cluster contrary to what was reported for wheat.
2016
23-giu-2016
92
1
161
175
Copy number variation at the HvCBF4–HvCBF2 genomic segment is a major component of frost resistance in barley / Francia, Enrico; Morcia, Caterina; Pasquariello, Marianna; Mazzamurro, Valentina; Milc, Justyna Anna; Rizza, Fulvia; Terzi, Valeria; Pecchioni, Nicola. - In: PLANT MOLECULAR BIOLOGY. - ISSN 0167-4412. - 92:1(2016), pp. 161-175. [10.1007/s11103-016-0505-4]
Francia, Enrico; Morcia, Caterina; Pasquariello, Marianna; Mazzamurro, Valentina; Milc, Justyna Anna; Rizza, Fulvia; Terzi, Valeria; Pecchioni, Nicola...espandi
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11380/1111652
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