Racionalna zasnova minimalnih sintetičnih promotorjev za rastline: Difference between revisions

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Povzeto po članku: [https://academic.oup.com/nar/article/48/21/11845/5897334 Y.M. Cai., K. Kallam., H.Tidd., G. Gendarini., A. Salzman et N. J. Patron: Rational design of minimal synthetic promoters for plants. Nucleid acid Research. 2020, 48, str. 11845–11856.]
Povzeto po članku: [https://academic.oup.com/nar/article/48/21/11845/5897334 Y.M. Cai., K. Kallam., H.Tidd., G. Gendarini., A. Salzman et N. J. Patron: Rational design of minimal synthetic promoters for plants. Nucleid Acids Research. 2020, 48, str. 11845–11856.]


=='''Introduction'''==
=='''Introduction'''==
Both synthetic promoters and transcription factors (TFs) have been powerful components, responsible for precise and exact regulation of specific plant transgene expression. For rational design of minimal synthetic plant promoters, we require specific type, spacing of motifs placed upstream of synthetic promoter and a copy of number. Synthetic transcription factors can be similarly constructed with usage of variety of  DNA binding domains (DBs) and efffector domains as well. What makes synthetic promoters and transcription factos better and more efficient than their natural counterparts is ability to provide better and more adequate transgene expression strenght and specificity [1].
Both synthetic promoters and transcription factors (TFs) have been powerful components, responsible for precise and exact regulation of specific plant transgene expression. For rational design of minimal synthetic plant promoters, we require specific type, spacing of motifs placed upstream of synthetic promoter and a copy of number. Synthetic transcription factors can be similarly constructed with usage of variety of  DNA binding domains (DBs) and efffector domains as well. What makes synthetic promoters and transcription factos better and more efficient than their natural counterparts is ability to provide better and more adequate transgene expression strenght and specificity [1].
=='''Identification of candidate transcription factor binding sites (TFBSs)'''==
All expression data for transcription factors encoding genes was obtained from the Expression Atlas [2].


=='''Resources'''==
=='''Resources'''==
[1] W.Liu., C.N. Stewart Jr: Plant synthetic promoters and transcription factors. Current Opinion in Biotechnology. 2016, 37 str. 36–44.
[1] W.Liu., C.N. Stewart Jr: Plant synthetic promoters and transcription factors. Current Opinion in Biotechnology. 2016, 37 str. 36–44.
[2] R.Petryszak.,M.Keays., Y.A.Tang., N.A. Fonseca., E. Barrera., T. Burdett, A.M.P. Fuentes., S. Jupp., S. Koskinen et al. Expression Atlas update––an integrated database of gene and protein expression in humans, animals and plants. Nucleic Acids Research, 44 str. 746 - 752.

Revision as of 13:38, 19 April 2021

Povzeto po članku: Y.M. Cai., K. Kallam., H.Tidd., G. Gendarini., A. Salzman et N. J. Patron: Rational design of minimal synthetic promoters for plants. Nucleid Acids Research. 2020, 48, str. 11845–11856.

Introduction

Both synthetic promoters and transcription factors (TFs) have been powerful components, responsible for precise and exact regulation of specific plant transgene expression. For rational design of minimal synthetic plant promoters, we require specific type, spacing of motifs placed upstream of synthetic promoter and a copy of number. Synthetic transcription factors can be similarly constructed with usage of variety of DNA binding domains (DBs) and efffector domains as well. What makes synthetic promoters and transcription factos better and more efficient than their natural counterparts is ability to provide better and more adequate transgene expression strenght and specificity [1].

Identification of candidate transcription factor binding sites (TFBSs)

All expression data for transcription factors encoding genes was obtained from the Expression Atlas [2].


Resources

[1] W.Liu., C.N. Stewart Jr: Plant synthetic promoters and transcription factors. Current Opinion in Biotechnology. 2016, 37 str. 36–44. [2] R.Petryszak.,M.Keays., Y.A.Tang., N.A. Fonseca., E. Barrera., T. Burdett, A.M.P. Fuentes., S. Jupp., S. Koskinen et al. Expression Atlas update––an integrated database of gene and protein expression in humans, animals and plants. Nucleic Acids Research, 44 str. 746 - 752.