ThaleMine: Keyword Search

GeneRIF (Gene Reference into Function)

Annotation:	LFY activity is fully dependent on BOP2 as well as on CUL3A and B to regulate target genes such as APETALA1 and to induce ectopic flower formation.
Organism:	A. thaliana
Gene:	BOP2
PubMed Id:	29995985

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GeneRIF (Gene Reference into Function)

Annotation:	LFY activity is fully dependent on BOP2 as well as on CUL3A and B to regulate target genes such as APETALA1 and to induce ectopic flower formation.
Organism:	A. thaliana
Gene:	LFY
PubMed Id:	29995985

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GeneRIF (Gene Reference into Function)

Annotation:	LFY activity is fully dependent on BOP2 as well as on CUL3A and B to regulate target genes such as APETALA1 and to induce ectopic flower formation.
Organism:	A. thaliana
Gene:	CUL3
PubMed Id:	29995985

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Publication

19955265

First Author:	Yan J
Title:	The REDUCED LEAFLET genes encode key components of the trans-acting small interfering RNA pathway and regulate compound leaf and flower development in Lotus japonicus.
Year:	2010
Journal:	Plant Physiol
Volume:	152
Pages:	797-807

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Publication

23335616

First Author:	Zhang X
Title:	Transcription repressor HANABA TARANU controls flower development by integrating the actions of multiple hormones, floral organ specification genes, and GATA3 family genes in Arabidopsis.
Year:	2013
Journal:	Plant Cell
Volume:	25
Pages:	83-101

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Publication

18296430

First Author:	Lázaro A
Title:	Mutations in the Arabidopsis SWC6 gene, encoding a component of the SWR1 chromatin remodelling complex, accelerate flowering time and alter leaf and flower development.
Year:	2008
Journal:	J Exp Bot
Volume:	59
Pages:	653-66

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Publication

26103992

First Author:	Yang CY
Title:	MicroRNA396-Targeted SHORT VEGETATIVE PHASE Is Required to Repress Flowering and Is Related to the Development of Abnormal Flower Symptoms by the Phyllody Symptoms1 Effector.
Year:	2015
Journal:	Plant Physiol
Volume:	168
Pages:	1702-16

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GeneRIF (Gene Reference into Function)

Annotation:	Data show that LEAFY, FRUITFULL, and APETALA1 are directly activated by the microRNA-targeted transcription factor SQUAMOSA PROMOTER BINDING PROTEIN-LIKE 3 (SPL3) to control the timing of flower formation.
Organism:	A. thaliana
Gene:	SPL3
PubMed Id:	19686687

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GeneRIF (Gene Reference into Function)

Annotation:	Data show that FOREVER YOUNG FLOWER UP-REGULATING FACTOR1 (FUF1; At1g71450) acts as an activator in suppressing ETHYLENE RESPONSE DNA BINDING FACTORs EDF1/2/3/4 function and senescence/abscission of the flowers.
Organism:	A. thaliana
Gene:	EDF3
PubMed Id:	26063506

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GeneRIF (Gene Reference into Function)

Annotation:	Data show that LEAFY, FRUITFULL, and APETALA1 are directly activated by the microRNA-targeted transcription factor SQUAMOSA PROMOTER BINDING PROTEIN-LIKE 3 (SPL3) to control the timing of flower formation.
Organism:	A. thaliana
Gene:	AGL8
PubMed Id:	19686687

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GeneRIF (Gene Reference into Function)

Annotation:	Data show that LEAFY, FRUITFULL, and APETALA1 are directly activated by the microRNA-targeted transcription factor SQUAMOSA PROMOTER BINDING PROTEIN-LIKE 3 (SPL3) to control the timing of flower formation.
Organism:	A. thaliana
Gene:	LFY
PubMed Id:	19686687

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GeneRIF (Gene Reference into Function)

Annotation:	Data suggest that helix-turn-helix transcription factor LEAFY (LFY) and the MADS box transcription factor APETALA1 (AP1)together orchestrate the switch to flower formation and morphogenesis by altering transcriptional programs.
Organism:	A. thaliana
Gene:	LFY
PubMed Id:	26096587

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GeneRIF (Gene Reference into Function)

Annotation:	Data show that FOREVER YOUNG FLOWER UP-REGULATING FACTOR1 (FUF1; At1g71450) acts as an activator in suppressing ETHYLENE RESPONSE DNA BINDING FACTORs EDF1/2/3/4 function and senescence/abscission of the flowers.
Organism:	A. thaliana
Gene:	RAV1
PubMed Id:	26063506

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GeneRIF (Gene Reference into Function)

Annotation:	Data show that FOREVER YOUNG FLOWER UP-REGULATING FACTOR1 (FUF1; At1g71450) acts as an activator in suppressing ETHYLENE RESPONSE DNA BINDING FACTORs EDF1/2/3/4 function and senescence/abscission of the flowers.
Organism:	A. thaliana
Gene:	TEM1
PubMed Id:	26063506

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GeneRIF (Gene Reference into Function)

Annotation:	Data show that FOREVER YOUNG FLOWER UP-REGULATING FACTOR1 (FUF1; At1g71450) acts as an activator in suppressing ETHYLENE RESPONSE DNA BINDING FACTORs EDF1/2/3/4 function and senescence/abscission of the flowers.
Organism:	A. thaliana
Gene:	RAV2
PubMed Id:	26063506

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GeneRIF (Gene Reference into Function)

Annotation:	Data show that LEAFY, FRUITFULL, and APETALA1 are directly activated by the microRNA-targeted transcription factor SQUAMOSA PROMOTER BINDING PROTEIN-LIKE 3 (SPL3) to control the timing of flower formation.
Organism:	A. thaliana
Gene:	AP1
PubMed Id:	19686687

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GeneRIF (Gene Reference into Function)

Annotation:	Data suggest that helix-turn-helix transcription factor LEAFY (LFY) and the MADS box transcription factor APETALA1 (AP1)together orchestrate the switch to flower formation and morphogenesis by altering transcriptional programs.
Organism:	A. thaliana
Gene:	AP1
PubMed Id:	26096587

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GeneRIF (Gene Reference into Function)

Annotation:	Data show that FOREVER YOUNG FLOWER UP-REGULATING FACTOR1 (FUF1; At1g71450) acts as an activator in suppressing ETHYLENE RESPONSE DNA BINDING FACTORs EDF1/2/3/4 function and senescence/abscission of the flowers.
Organism:	A. thaliana
Gene:	AT1G71450
PubMed Id:	26063506

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Publication

12096822

First Author:	Skipper M
Title:	Genes from the APETALA3 and PISTILLATA lineages are expressed in developing vascular bundles of the tuberous rhizome, flowering stem and flower Primordia of Eranthis hyemalis.
Year:	2002
Journal:	Ann Bot
Volume:	89
Pages:	83-8

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Publication

26760036

First Author:	Wang H
Title:	Arabidopsis Flower and Embryo Developmental Genes are Repressed in Seedlings by Different Combinations of Polycomb Group Proteins in Association with Distinct Sets of Cis-regulatory Elements.
Year:	2016
Journal:	PLoS Genet
Volume:	12
Pages:	e1005771

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Publication

12826620

First Author:	Kotake T
Title:	Arabidopsis TERMINAL FLOWER 2 gene encodes a heterochromatin protein 1 homolog and represses both FLOWERING LOCUS T to regulate flowering time and several floral homeotic genes.
Year:	2003
Journal:	Plant Cell Physiol
Volume:	44
Pages:	555-64

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GeneRIF (Gene Reference into Function)

Annotation:	SOC1 constitutes a major hub in the regulatory networks underlying floral timing and flower development and that these networks are composed of many positive and negative autoregulatory and feedback loops.
Organism:	A. thaliana
Gene:	AGL20
PubMed Id:	22791302

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GeneRIF (Gene Reference into Function)

Annotation:	HIPP3 acts via its bound zinc as an upstream regulator of the salicylate-dependent pathway of pathogen response and is also involved in abiotic stress responses and seed and flower development.[HIPP3]
Organism:	A. thaliana
Gene:	AT5G60800
PubMed Id:	25913773

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Interaction Experiment

Name:	Shi Z (2012)
Description:	The Salicylic Acid Receptor NPR3 Is a Negative Regulator of the Transcriptional Defense Response during Early Flower Development in Arabidopsis.

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GeneRIF (Gene Reference into Function)

Annotation:	data suggest that boundary-expressing HAN communicates with the meristem through the PNH, regulates floral organ development via JAG and BOP2, and maintains boundary morphology through CKX3 during flower development in Arabidopsis
Organism:	A. thaliana
Gene:	AGO10
PubMed Id:	26390296

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GeneRIF (Gene Reference into Function)

Annotation:	data suggest that boundary-expressing HAN communicates with the meristem through the PNH, regulates floral organ development via JAG and BOP2, and maintains boundary morphology through CKX3 during flower development in Arabidopsis
Organism:	A. thaliana
Gene:	CKX3
PubMed Id:	26390296

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GeneRIF (Gene Reference into Function)

Annotation:	The data support the role of FLM-beta as a flower repressor and provide evidence that a contribution of FLM-delta to the regulation of flowering time in wild-type Arabidopsis thaliana seems unlikely.
Organism:	A. thaliana
Gene:	MAF1
PubMed Id:	29036339

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Publication

20602150

First Author:	Li ZM
Title:	PtSVP, an SVP homolog from trifoliate orange (Poncirus trifoliata L. Raf.), shows seasonal periodicity of meristem determination and affects flower development in transgenic Arabidopsis and tobacco plants.
Year:	2010
Journal:	Plant Mol Biol
Volume:	74
Pages:	129-42

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GeneRIF (Gene Reference into Function)

Annotation:	A member of the BAHD family of acyltransferases (DEFECTIVE IN CUTICULAR RIDGES [DCR]) is required for incorporation of the most abundant monomer into the polymeric structure of the Arabidopsis flower cutin. [DCR]
Organism:	A. thaliana
Gene:	PEL3
PubMed Id:	19828672

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GeneRIF (Gene Reference into Function)

Annotation:	The N-terminal PAN cysteines participate in a redox-dependent control of the PAN interaction with a highly conserved regulatory AG cis-element, emphasizing the importance of redox-modifications in the regulation of flower developmental processes.
Organism:	A. thaliana
Gene:	PAN
PubMed Id:	27128442

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Publication

27098089

First Author:	Breuil-Broyer S
Title:	Analysis of the Arabidopsis superman allelic series and the interactions with other genes demonstrate developmental robustness and joint specification of male-female boundary, flower meristem termination and carpel compartmentalization.
Year:	2016
Journal:	Ann Bot
Volume:	117
Pages:	905-23

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GeneRIF (Gene Reference into Function)

Annotation:	The ULT1 and LFY pathways act separately in regulating identity and determinacy at the floral meristem. In particular, they independently induce AG expression in the centre of the flower to terminate meristem activity.
Organism:	A. thaliana
Gene:	AG
PubMed Id:	25288633

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GeneRIF (Gene Reference into Function)

Annotation:	The ULT1 and LFY pathways act separately in regulating identity and determinacy at the floral meristem. In particular, they independently induce AG expression in the centre of the flower to terminate meristem activity.
Organism:	A. thaliana
Gene:	ULT1
PubMed Id:	25288633

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GeneRIF (Gene Reference into Function)

Annotation:	The ULT1 and LFY pathways act separately in regulating identity and determinacy at the floral meristem. In particular, they independently induce AG expression in the centre of the flower to terminate meristem activity.
Organism:	A. thaliana
Gene:	LFY
PubMed Id:	25288633

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GeneRIF (Gene Reference into Function)

Annotation:	a 15 kD Thi2.4 protein was specifically expressed in flowers and flower buds and suggest that it acts not only as an antifungal peptide, but also as a suppressor of the FFBL toxicity
Organism:	A. thaliana
Gene:	AT1G66100
PubMed Id:	23990790

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Interaction Experiment

Name:	Ding L (2015)
Description:	HANABA TARANU (HAN) Bridges Meristem and Organ Primordia Boundaries through PINHEAD, JAGGED, BLADE-ON-PETIOLE2 and CYTOKININ OXIDASE 3 during Flower Development in Arabidopsis.

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Ontology Term

- | Gibberellin signaling pathway

Description:

Protein involved in the gibberellin (GA) signaling pathway (e.g transport and signal transduction) that regulates many aspects of plant growth including seed germination, hypocotyl elongation, stem elongation, leaf expansion, trichome development, pollen maturation and flower and fruit development. GAs are tetracyclic diterpenoid phytohormones found in plants, fungi and bacteria. They are named GA1....GAn in order of discovery. The term "gibberellin" was first given to a substance, produced by the fungus Gibberella fujikuroi, which caused overgrowth symptoms in rice. This substance was later proven to be a mixture of GAs, with GA1 and GA3 being the active factors

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Protein Domain

IPR006595

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GeneRIF (Gene Reference into Function)

Annotation:	NHX1 and NHX2 mediate K+/H+ exchange to accumulate K+ in the vacuole. NHX1 and NHX2 function together to control cell expansion in vegetative tissues and male reproductive organs and are required for normal flower development.
Organism:	A. thaliana
Gene:	NHX2
PubMed Id:	21954467

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GeneRIF (Gene Reference into Function)

Annotation:	TFL1 can act outside of its normal expression domain in leaf primordia or floral meristems to repress flower identity. These data show how the timing and spatial pattern of TFL1 expression affect overall plant architecture.
Organism:	A. thaliana
Gene:	TFL1
PubMed Id:	26019254

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GeneRIF (Gene Reference into Function)

Annotation:	NHX1 and NHX2 mediate K+/H+ exchange to accumulate K+ in the vacuole. NHX1 and NHX2 function together to control cell expansion in vegetative tissues and male reproductive organs and are required for normal flower development.
Organism:	A. thaliana
Gene:	NHX1
PubMed Id:	21954467

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Publication

11595796

First Author:	Ishiguro S
Title:	The DEFECTIVE IN ANTHER DEHISCIENCE gene encodes a novel phospholipase A1 catalyzing the initial step of jasmonic acid biosynthesis, which synchronizes pollen maturation, anther dehiscence, and flower opening in Arabidopsis.
Year:	2001
Journal:	Plant Cell
Volume:	13
Pages:	2191-209

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GeneRIF (Gene Reference into Function)

Annotation:	AIP1 interacts with ABAP1, with a plant histone modification "reader" (LHP1) and with non modified histones. Also, expression of ABAP1 and LHP1 target genes were repressed in flower buds of plants with reduced levels of AIP1.
Organism:	A. thaliana
Gene:	ABI3
PubMed Id:	26538092

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GeneRIF (Gene Reference into Function)

Annotation:	AIP1 interacts with ABAP1, with a plant histone modification "reader" (LHP1) and with non modified histones. Also, expression of ABAP1 and LHP1 target genes were repressed in flower buds of plants with reduced levels of AIP1.
Organism:	A. thaliana
Gene:	ABAP1
PubMed Id:	26538092

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GeneRIF (Gene Reference into Function)

Annotation:	AIP1 interacts with ABAP1, with a plant histone modification "reader" (LHP1) and with non modified histones. Also, expression of ABAP1 and LHP1 target genes were repressed in flower buds of plants with reduced levels of AIP1.
Organism:	A. thaliana
Gene:	TFL2
PubMed Id:	26538092

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Interaction Experiment

Name:	Lazaro A (2008)
Description:	Mutations in the Arabidopsis SWC6 gene, encoding a component of the SWR1 chromatin remodelling complex, accelerate flowering time and alter leaf and flower development.

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GeneRIF (Gene Reference into Function)

Annotation:	These results revealed that TyrA1 and TyrA2 have distinct and overlapping functions in flower and leaf development, respectively, and that imbalance of tyrosine, caused by altered TyrA activity and regulation, impacts growth and development of Arabidopsis. [TyrA1]
Organism:	A. thaliana
Gene:	AT5G34930
PubMed Id:	30457178

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GeneRIF (Gene Reference into Function)

Annotation:	These results revealed that TyrA1 and TyrA2 have distinct and overlapping functions in flower and leaf development, respectively, and that imbalance of tyrosine, caused by altered TyrA activity and regulation, impacts growth and development of Arabidopsis. [TyrA2]
Organism:	A. thaliana
Gene:	AT1G15710
PubMed Id:	30457178

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GeneRIF (Gene Reference into Function)

Annotation:	Results sugest that flowering locus t protein (FT)/TWIN SISTER OF FT protein (TSF) and TERMINAL FLOWER 1 protein (TFL1) play antagonistic roles in the determination of inflorescence meristem identity, and that FT/TSF are more important than TFL1 in this process.
Organism:	A. thaliana
Gene:	TSF
PubMed Id:	30943325

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GeneRIF (Gene Reference into Function)

Annotation:	Results sugest that flowering locus t protein (FT)/TWIN SISTER OF FT protein (TSF) and TERMINAL FLOWER 1 protein (TFL1) play antagonistic roles in the determination of inflorescence meristem identity, and that FT/TSF are more important than TFL1 in this process.
Organism:	A. thaliana
Gene:	TFL1
PubMed Id:	30943325

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GeneRIF (Gene Reference into Function)

Annotation:	This study provides a link between thermal and developmental perception signals and expands the understanding of the roles of sepal in plant development and heat response. HSP70-16 is required for flower opening under normal or mild heat stress temperatures. [HSP70-16]
Organism:	A. thaliana
Gene:	AT1G11660
PubMed Id:	30426513

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GeneRIF (Gene Reference into Function)

Annotation:	Results sugest that flowering locus t protein (FT)/TWIN SISTER OF FT protein (TSF) and TERMINAL FLOWER 1 protein (TFL1) play antagonistic roles in the determination of inflorescence meristem identity, and that FT/TSF are more important than TFL1 in this process.
Organism:	A. thaliana
Gene:	FT
PubMed Id:	30943325

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UniProt Feature

Begin:	68
Description:	In crm2-1; compact inflorescence with several flower buds at the tip.
Type:	mutagenesis site
End:	68

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UniProt Feature

Begin:	85
Description:	Inhibition of terminal flower formation, but weak effect on flowering time.
Type:	mutagenesis site
End:	85

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GeneRIF (Gene Reference into Function)

Annotation:	Functionally characterized A/N-InvH, a third gene coding for a mitochondrial-targeted protein. The phenotypic analysis of knockout mutant plants (invh) showed a severely reduced shoot growth, while root development was not affected. The emergence of the first floral bud and the opening of the first flower were the most affected stages, presenting a significant delay.
Organism:	A. thaliana
Gene:	INVH
PubMed Id:	28945799

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UniProt Feature

Begin:	1153
Description:	In syd-1; precocious transition from inflorescence to flower formation, abnormal flowers exhibiting variable petals and stamens number and position as well as some mosaic organs (stamenoid petals).
Type:	mutagenesis site
End:	1153

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UniProt Feature

Begin:	180
Description:	In han-2; reduced fertility. Abnormal flower and shoot apical meristem (SAM) development with fused sepals and reduced organ numbers in all four whorls as well as flatter and smaller meristems. Coordinated apical shift of gene expression patterns in the basal proembryo.
Type:	mutagenesis site
End:	180

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Transposable Element Gene

AT5G16505 | locus:505006619 | MUG4 | MUSTANG 4

Length:	2378
Chromosome Location:	Chr5: 5390006-5392383
Organism . Short Name:	A. thaliana
TAIR Computational Description:	transposable_element_gene;(source:Araport11);Mutator-like transposase family, has a 1.4e-59 P-value blast match to GB:AAA21566 mudrA of transposon=MuDR (MuDr-element) (Zea mays);(source:TAIR10)
TAIR Curator Summary:	Encodes a member of a domesticated transposable element gene family MUSTANG. Members of this family are derived from transposable elements genes but gained function in plant fitness and flower development. Known members include: AT3G04605 (MUG1), AT2G30640 (MUG2), AT1G06740 (MUG3), AT5G16505 (MUG4), AT3G06940 (MUG5), AT5G48965 (MUG6), AT3G05850 (MUG7) and AT5G34853 (MUG8).
TAIR Short Description:	NULL
TAIR Aliases:	MUG4

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Transposable Element Gene

AT2G30640 | locus:2054507 | MUG2 | MUSTANG 2

Length:	2265
Chromosome Location:	Chr2: 13049509-13051773
Organism . Short Name:	A. thaliana
TAIR Computational Description:	transposable_element_gene;(source:Araport11);Mutator-like transposase family, has a 4.9e-53 P-value blast match to GB:AAA21566 mudrA of transposon=MuDR (MuDr-element) (Zea mays);(source:TAIR10)
TAIR Curator Summary:	Encodes a member of a domesticated transposable element gene family MUSTANG. Members of this family are derived from transposable elements genes but gained function in plant fitness and flower development. Known members include: AT3G04605 (MUG1), AT2G30640 (MUG2), AT1G06740 (MUG3), AT5G16505 (MUG4), AT3G06940 (MUG5), AT5G48965 (MUG6), AT3G05850 (MUG7) and AT5G34853 (MUG8).
TAIR Short Description:	NULL
TAIR Aliases:	MUG2

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Transposable Element Gene

AT3G04605 | locus:2829127 | MUG1 | MUSTANG 1

Length:	3727
Chromosome Location:	Chr3: 1246669-1250395
Organism . Short Name:	A. thaliana
TAIR Computational Description:	transposable_element_gene;(source:Araport11);Mutator-like transposase family, has a 5.9e-64 P-value blast match to GB:AAA21566 mudrA of transposon=MuDR (MuDr-element) (Zea mays);(source:TAIR10)
TAIR Curator Summary:	Encodes a member of a domesticated transposable element gene family MUSTANG. Members of this family are derived from transposable elements genes but gained function in plant fitness and flower development. Known members include: AT3G04605 (MUG1), AT2G30640 (MUG2), AT1G06740 (MUG3), AT5G16505 (MUG4), AT3G06940 (MUG5), AT5G48965 (MUG6), AT3G05850 (MUG7) and AT5G34853 (MUG8).
TAIR Short Description:	NULL
TAIR Aliases:	MUG1

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Transposable Element Gene

AT3G06940 | locus:2077582 | MUG5 | MUSTANG 5

Length:	3144
Chromosome Location:	Chr3: 2189479-2192622
Organism . Short Name:	A. thaliana
TAIR Computational Description:	transposable_element_gene;(source:Araport11);Mutator-like transposase family, has a 1.1e-42 P-value blast match to GB:AAA21566 mudrA of transposon=MuDR (MuDr-element) (Zea mays);(source:TAIR10)
TAIR Curator Summary:	Encodes a member of a domesticated transposable element gene family MUSTANG. Members of this family are derived from transposable elements genes but gained function in plant fitness and flower development. Known members include: AT3G04605 (MUG1), AT2G30640 (MUG2), AT1G06740 (MUG3), AT5G16505 (MUG4), AT3G06940 (MUG5), AT5G48965 (MUG6), AT3G05850 (MUG7) and AT5G34853 (MUG8).
TAIR Short Description:	NULL
TAIR Aliases:	MUG5

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Transposable Element Gene

AT5G34853 | locus:504956408 | MUG8 | MUSTANG 8

Length:	3413
Chromosome Location:	Chr5: 13103678-13107090
Organism . Short Name:	A. thaliana
TAIR Computational Description:	transposable_element_gene;(source:Araport11);Mutator-like transposase family, has a 2.7e-48 P-value blast match to GB:AAA21566 mudrA of transposon=MuDR (MuDr-element) (Zea mays);(source:TAIR10)
TAIR Curator Summary:	Encodes a member of a domesticated transposable element gene family MUSTANG. Members of this family are derived from transposable elements genes but gained function in plant fitness and flower development. Known members include: AT3G04605 (MUG1), AT2G30640 (MUG2), AT1G06740 (MUG3), AT5G16505 (MUG4), AT3G06940 (MUG5), AT5G48965 (MUG6), AT3G05850 (MUG7) and AT5G34853 (MUG8).
TAIR Short Description:	NULL
TAIR Aliases:	MUG8

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Transposable Element Gene

AT5G48965 | locus:504954986 | MUG6 | MUSTANG 6

Length:	2869
Chromosome Location:	Chr5: 19853991-19856859
Organism . Short Name:	A. thaliana
TAIR Computational Description:	transposable_element_gene;(source:Araport11);Mutator-like transposase family, has a 3.7e-47 P-value blast match to GB:AAA21566 mudrA of transposon=MuDR (MuDr-element) (Zea mays);(source:TAIR10)
TAIR Curator Summary:	Encodes a member of a domesticated transposable element gene family MUSTANG. Members of this family are derived from transposable elements genes but gained function in plant fitness and flower development. Known members include: AT3G04605 (MUG1), AT2G30640 (MUG2), AT1G06740 (MUG3), AT5G16505 (MUG4), AT3G06940 (MUG5), AT5G48965 (MUG6), AT3G05850 (MUG7) and AT5G34853 (MUG8).
TAIR Short Description:	NULL
TAIR Aliases:	MUG6

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