Expression ofTaTAR2.3-1B,TaYUC9-1andTaYUC10correlates with auxin and starch content of developing wheat grains

Kabir, Muhammed Rezwan; Nonhebel, Heather M.; Backhouse, David; Winter, Gal

doi:10.1101/2020.10.12.336560

Cited by 4 publications

(7 citation statements)

References 40 publications

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“…In addition, an exhaustive search for expression of the wheat orthologues of IAGLU was unable to detect gene activity in developing grains and other tissues. In contrast, our recent work on the TAR/YUCCA pathway showed this was highly active in developing wheat grains from 10 to 20 DAA (Kabir et al 2020) similar to previously published work on rice (Abu-Zaitoon et al 2012). Expression of TaTAR2.3-1B, TaYUC9-1 and TaYUC10 was strongly correlated with the free IAA content of developing wheat grains.…”

Section: Iaa-glc Is Not Present or Produced In Developing Wheat Grainssupporting

confidence: 88%

“…IAA was eluted with 1 mL ACN and transferred to vials and stored at -20ºC. The remaining half samples were prepared for free IAA analysis as described by Kabir et al (2020). The analysis of C: 13 C IAA was conducted using a triple quadrupole Liquid Chromatograph Mass Spectrometer (LCMS)-8050, (Shimadzu) with XBridge TM C18 3.5 µm, 2.1×50 mm column (Phenomenex).…”

Section: Ester and Free Iaa Measurementmentioning

confidence: 99%

“…) and from 10 DAA in wheat (Kabir et al 2020). The TaTGW6 work has further problems in that the authors did not assess the activity of the gene product and the IAA measurements used inappropriate, low specificity methods (High performance liquid chromatography with UV absorbance detector).…”

mentioning

confidence: 99%

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Reinvestigation of grain weight genesTaTGW6andOsTGW6casts doubt on their role in auxin regulation in developing grains

Kabir¹,

Nonhebel²

2020

Preprint

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The THOUSAND-GRAIN WEIGHT 6 genes (TaTGW6 and OsTGW6) are reported to result in larger grains of wheat and rice by reducing production of indole-3-acetic acid (IAA) in developing grains. However, a critical comparison of data on TaTGW6 and OsTGW6 with other reports on IAA synthesis in cereal grains requires that this hypothesis be reinvestigated. Here, we show that TaTGW6 and OsTGW6 are members of a large gene family that has undergone major, lineage-specific gene expansion. Wheat has nine genes, and rice three genes encoding proteins with more than 80% amino acid identity with TGW6 making it difficult to envisage how a single inactive allele could have a major effect on IAA levels. TGW6 is proposed to affect auxin levels by catalysing the hydrolysis of IAA-glucose (IAA-Glc). However, we show that developing wheat grains contain undetectable levels of ester IAA in comparison to free IAA and do not express an IAA-glucose synthase. Previous work on TGW6, reported maximal expression at 20 days after anthesis (DAA) in wheat and 2 DAA in rice. However, we show that neither gene is expressed in developing grains. Instead, TaTGW6, OsTGW6 and their close homologues are exclusively expressed in pre-emergence inflorescences; TaTGW6 is expressed particularly in microspores prior to mitosis. This combined with evidence for high levels of IAA production from tryptophan in developing grains demonstrates TaTGW6 and OsTGW6 cannot regulate grain size via the hydrolysis of IAA-Glc. Instead, their similarity to rice strictosidine synthase-like (OsSTRL2) suggests they play a key role in pollen development.

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Section: Iaa-glc Is Not Present or Produced In Developing Wheat Grainssupporting

confidence: 88%

Section: Ester and Free Iaa Measurementmentioning

confidence: 99%

See 1 more Smart Citation

Reinvestigation of grain weight genesTaTGW6andOsTGW6casts doubt on their role in auxin regulation in developing grains

Kabir¹,

Nonhebel²

2020

Preprint

Self Cite

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show abstract

“…IAA was eluted with 1 mL ACN and transferred to vials and stored at -20ºC. The remaining half samples were prepared for free IAA analysis as described by Kabir et al (2020). The analysis of 12 C: C IAA was conducted using a triple quadrupole Liquid Chromatograph Mass Spectrometer (LCMS)-8050, (Shimadzu) with XBridge TM C18 3.5 µm, 2.1×50 mm column (Phenomenex).…”

Section: Ester and Free Iaa Measurementmentioning

confidence: 99%

“…Neither Ishimaru et al (2013) nor Hu et al (2016a) investigated the availability of IAA-Glc as a substrate for TGW6. Furthermore, the TAR/YUCCA pathway of IAA production is strongly upregulated in rice from 4 DAA (Abu-Zaitoon et al 2012) and from 10 DAA in wheat (Kabir et al 2020). The TaTGW6 work has further problems in that the authors did not assess the activity of the gene product and the IAA measurements used inappropriate, low specificity methods (High performance liquid chromatography with UV absorbance detector).…”

Section: Introductionmentioning

confidence: 99%

Reinvestigation of THOUSAND-GRAIN WEIGHT 6 grain weight genes in wheat and rice indicates a role in pollen development rather than regulation of auxin content in grains

Kabir

Nonhebel

2021

Theor Appl Genet

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The THOUSAND-GRAIN WEIGHT 6 genes (TaTGW6 and OsTGW6) are reported to result in larger grains of wheat and rice by reducing production of indole-3-acetic acid (IAA) in developing grains. However, a critical comparison of data on TaTGW6 and OsTGW6 with other reports on IAA synthesis in cereal grains requires that this hypothesis be reinvestigated.Here, we show that TaTGW6 and OsTGW6 are members of a large gene family that has undergone major, lineage-specific gene expansion. Wheat has nine genes, and rice three genes encoding proteins with more than 80% amino acid identity with TGW6 making it difficult to envisage how a single inactive allele could have a major effect on IAA levels.TGW6 is proposed to affect auxin levels by catalysing the hydrolysis of IAA-glucose (IAA-Glc). However, we show that developing wheat grains contain undetectable levels of ester IAA in comparison to free IAA and do not express an IAA-glucose synthase. Previous work on TGW6, reported maximal expression at 20 days after anthesis (DAA) in wheat and 2 DAA in rice. However, we show that neither gene is expressed in developing grains. Instead, TaTGW6, OsTGW6 and their close homologues are exclusively expressed in pre-emergence inflorescences; TaTGW6 is expressed particularly in microspores prior to mitosis. This combined with evidence for high levels of IAA production from tryptophan in developing grains demonstrates TaTGW6 and OsTGW6 cannot regulate grain size via the hydrolysis of IAA-Glc. Instead, their similarity to rice strictosidine synthase-like (OsSTRL2) suggests they play a key role in pollen development.

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Localised expression of OsIAA29 suggests a key role for auxin in regulating development of the dorsal aleurone of early rice grains

Basunia

Nonhebel

Backhouse

et al. 2021

Planta

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Expression ofTaTAR2.3-1B,TaYUC9-1andTaYUC10correlates with auxin and starch content of developing wheat grains

Cited by 4 publications

References 40 publications

Reinvestigation of grain weight genesTaTGW6andOsTGW6casts doubt on their role in auxin regulation in developing grains

Reinvestigation of grain weight genesTaTGW6andOsTGW6casts doubt on their role in auxin regulation in developing grains

Reinvestigation of THOUSAND-GRAIN WEIGHT 6 grain weight genes in wheat and rice indicates a role in pollen development rather than regulation of auxin content in grains

Localised expression of OsIAA29 suggests a key role for auxin in regulating development of the dorsal aleurone of early rice grains

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