Shared functions of plant and mammalian StAR-related lipid transfer (START) domains in modulating transcription factor activity

Schrick, Kathrin; Bruno, Michael D.; Khosla, Aashima; Cox, Paige N; Marlatt, Sara A.; Roque, Remigio A.; Nguyen, Henry C.; He, Cuiwen; Snyder, M; Singh, Dilbag; Yadav, Gitanjali

doi:10.1186/s12915-014-0070-8

Cited by 77 publications

(59 citation statements)

References 42 publications

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“…To further gain the mechanical insights of the post-transcriptional repression of ATML1, we performed domain deletion analyses. Among the four domains of ATML1, we focused on ZLZ and START domains because of their potential to interact with other regulatory molecules: the ZLZ domain is known as a dimerization motif and the START domain is predicted as a lipid/sterol-binding domain (Schrick et al, 2014). To assess the role of each domain in ATML1 localization, we generated transgenic lines that expressed 3xGFP-ATML1 fusion genes, with or without deletion of ZLZ or START, under the control of the ATML1 promoter ( proML1-3xGFP-ML1, proML1-3xGFP-ML1ΔZLZ and proML1-3xGFP-ML1ΔSTART).…”

Section: Zlz Domain Was Required For the Inhibition Of Atml1 Nuclear mentioning

confidence: 99%

“…ZLZ and START domains were shown to interact with other molecules or act as target sites for post-translational modification (Tron et al, 2002;Schrick et al, 2014). It has been reported that the START domain of ATML1 stimulated transcription factor activity in yeast in response to increased sterol biosynthesis (Schrick et al, 2014). Therefore, HD-ZIP class IV START domains may be involved in post-translational activation of transcription factors.…”

Section: Deletion Of Zlz Caused Accumulation Of Atml1 In the Inner Cementioning

confidence: 99%

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ATML1 activity is restricted to the outermost cells of the embryo through post-transcriptional repressions

2019

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Cell fate determination in plants relies on positional cues. To investigate the position-dependent gene regulation in plants, we focused on shoot epidermal cell specification, which occurs only in the outermost cells. ATML1, which encodes an HD-ZIP class IV transcription factor, is a positive regulator of shoot epidermal cell identity. Despite the presence of a weak ATML1 promoter activity in the inner cells, ATML1 protein was detected mostly in the outermost cells, which suggests that ATML1 accumulation is inhibited in the inner cells. ATML1 nuclear localization was reduced in the epidermis and there was a positive, albeit weak, correlation between the amount of ATML1 in the nuclei and the expression of a direct target of ATML1. Nuclear accumulation of ATML1 was more strongly inhibited in the inner cells than in the outermost cells. Domain deletion analyses revealed that the ZLZ-coding sequence was necessary and partially sufficient for the post-transcriptional repression of ATML1. Our results suggest that post-transcriptional repressions contribute to the restriction of master transcriptional regulator activity in specific cells to enable position-dependent cell differentiation.

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Section: Zlz Domain Was Required For the Inhibition Of Atml1 Nuclear mentioning

confidence: 99%

Section: Deletion Of Zlz Caused Accumulation Of Atml1 In the Inner Cementioning

confidence: 99%

ATML1 activity is restricted to the outermost cells of the embryo through post-transcriptional repressions

2019

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“…Steroidogenic acute regulatory protein (STAR) related to lipid transfer plays a key role in the acute regulation of steroid hormone synthesis by enhancing the conversion of cholesterol into pregnenolone [25]. There is evidence that cholesterol plays a direct role in inflammation which promotes muscle building and strength [26][27][28].…”

Section: Discussionmentioning

confidence: 99%

Comparative Transcriptomic Analyses by RNA-seq to Elucidate Differentially Expressed Genes in the Muscle of Korean Thoroughbred Horses

Ghosh

Cho

Park

et al. 2016

Appl Biochem Biotechnol

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The athletic abilities of the horse serve as a valuable model to understand the physiology and molecular mechanisms of adaptive responses to exercise. We analyzed differentially expressed genes in triceps brachii muscle tissues collected from Eonjena Taeyang and Jigusang Seryeok Thoroughbred horses and their co-expression networks in a large-scale RNA-sequence dataset comparing expression before and after exercise. High-quality horse transcriptome data were generated, with over 22 million 90-bp pair-end reads. By comparing the annotations, we found that MYH3, MPZ, and PDE8B genes in Eonjena Taeyang and PDE8B and KIF18A genes in Jigusang Seryeok were upregulated before exercise. Notably further, we observed that PPP1R27, NDUFA3, TNC, and ANK1 in Eonjena Taeyang and HIF1A, BDNF, ADRB2, OBSCN, and PER3 in Jigusang Seryeok have shown upregulation at the postexercise period. This investigation suggested that genes responsible for metabolism and oxidative phosphorylations associated with endurance and resistance exercise were highly expressed, whereas genes encoding structural proteins were generally suppressed. The expression profile of racehorses at pre- and postexercise will provide credible reference for further studies on biological effects such as responses to stress and adaption of other Thoroughbred horse, which might be useful for selective breeding for improvement of traits in commercial production.

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“…In contrast, PITPα present in the same experiment extracted phosphatidylcholine (PC) and phosphatidylinositol (PI) but not cholesterol (data not shown). Therefore, the lack of recovery of the major phospholipids, including PC, PI, phosphatidylserine (PS) and phosphatidylethanolamine (PE), by Lam4S2 indicates that if it does bind phospholipids non-specifically (Schrick et al, 2014), such binding can only be weak (Kd >100 μM).…”

Section: Start-like Domains In Ysp2p and Lam4p All Solubilize Sterolmentioning

confidence: 99%

Author response: A new family of StART domain proteins at membrane contact sites has a role in ER-PM sterol transport

Gatta¹,

Wong²,

Sere

et al. 2015

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Sterol traffic between the endoplasmic reticulum (ER) and plasma membrane (PM) is a fundamental cellular process that occurs by a poorly understood non-vesicular mechanism. We identified a novel, evolutionarily diverse family of ER membrane proteins with StART-like lipid transfer domains and studied them in yeast. StART-like domains from Ysp2p and its paralog Lam4p specifically bind sterols, and Ysp2p, Lam4p and their homologs Ysp1p and Sip3p target punctate ER-PM contact sites distinct from those occupied by known ER-PM tethers. The activity of Ysp2p, reflected in amphotericin-sensitivity assays, requires its second StART-like domain to be positioned so that it can reach across ER-PM contacts. Absence of Ysp2p, Ysp1p or Sip3p reduces the rate at which exogenously supplied sterols traffic from the PM to the ER. Our data suggest that these StART-like proteins act in trans to mediate a step in sterol exchange between the PM and ER.

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Shared functions of plant and mammalian StAR-related lipid transfer (START) domains in modulating transcription factor activity

Cited by 77 publications

References 42 publications

ATML1 activity is restricted to the outermost cells of the embryo through post-transcriptional repressions

ATML1 activity is restricted to the outermost cells of the embryo through post-transcriptional repressions

Comparative Transcriptomic Analyses by RNA-seq to Elucidate Differentially Expressed Genes in the Muscle of Korean Thoroughbred Horses

Author response: A new family of StART domain proteins at membrane contact sites has a role in ER-PM sterol transport

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