Plant Circular RNA Database

Detail information of AT1G73430_circ_g.4

			
						 General Information
					
						CircRNA Name
						AT1G73430_circ_g.4
					
						ID in PlantcircBase
						ath_circ_009982
					
						Alias
						1:27603949-27606480
					
						Organism
						
							Arabidpsis thaliana						
					
						Position
						
							chr1: 27603949-27606480  JBrowse»						
					
						Reference genome
						
							TAIR10.38						
					
						Type  
						
							ue-circRNA							
									
						Identification method
						find_circ; CIRI2
					
						Parent gene
						
							AT1G73430						
					
						Parent gene annotation
						
							Sec34-like family protein
							
						Parent gene strand
						+
					
						Alternative splicing
						
							AT1G73430_circ_g.1 AT1G73430_circ_g.2 AT1G73430_circ_g.3 AT1G73430_circ_g.5 AT1G73430_circ_g.6 AT1G73430_circ_g.7 AT1G73430_circ_g.8 AT1G73430_circ_g.9 AT1G73430_circ_g.10 AT1G73430_circ_g.11 AT1G73430_circ_g.12 AT1G73430_circ_g.13 AT1G73430_circ_g.14 AT1G73430_circ_g.15 AT1G73430_circ_g.16 AT1G73430_circ_g.17 AT1G73430_circ_g.18 AT1G73430_circ_g.19 						
					
						Support reads
						1
					
						Tissues
						root
					
						Exon boundary  
						
							Yes-Yes							"Exon boundary" shows whether the splicing sites are on the boundary of exons or not. For example, "Yes-No" represents the donor splicing site is on the exon boundary and the accepter is not on the exon boundary.

						Splicing signals  
						
							GT-AG							The splicing signals of the circRNA. For example, "AG-GT" represents that the donor and the accepter splicing signal is "AG" and "GT", respectively.

						Number of exons covered
						AT1G73430.2:11
AT1G73430.1:11

General Information
CircRNA Name	AT1G73430_circ_g.4
ID in PlantcircBase	ath_circ_009982
Alias	1:27603949-27606480
Organism	Arabidpsis thaliana
Position	chr1: 27603949-27606480 JBrowse»
Reference genome	TAIR10.38
Type	ue-circRNA
Identification method	find_circ; CIRI2
Parent gene	AT1G73430
Parent gene annotation	Sec34-like family protein
Parent gene strand	+
Alternative splicing	AT1G73430_circ_g.1 AT1G73430_circ_g.2 AT1G73430_circ_g.3 AT1G73430_circ_g.5 AT1G73430_circ_g.6 AT1G73430_circ_g.7 AT1G73430_circ_g.8 AT1G73430_circ_g.9 AT1G73430_circ_g.10 AT1G73430_circ_g.11 AT1G73430_circ_g.12 AT1G73430_circ_g.13 AT1G73430_circ_g.14 AT1G73430_circ_g.15 AT1G73430_circ_g.16 AT1G73430_circ_g.17 AT1G73430_circ_g.18 AT1G73430_circ_g.19
Support reads	1
Tissues	root
Exon boundary	Yes-Yes "Exon boundary" shows whether the splicing sites are on the boundary of exons or not. For example, "Yes-No" represents the donor splicing site is on the exon boundary and the accepter is not on the exon boundary.
Splicing signals	GT-AG The splicing signals of the circRNA. For example, "AG-GT" represents that the donor and the accepter splicing signal is "AG" and "GT", respectively.
Number of exons covered	AT1G73430.2:11 AT1G73430.1:11

			
						 Experimental Information
					
						Sanger sequencing for BSS  
						
							NA							Sanger sequencing for back-splicing site (BSS) validation. "Yes" represents Sanger sequencing has been performed to valid the back-splicing site, "No" represents the opposite, "NA" represents "not available".

						PCR primers for BSS   
						
							NA							PCR primers used in back-splicing site (BSS) validation.

						Sanger sequencing for FL   
						
							NA							Sanger sequencing for full-length (FL) sequence validation of circRNAs. "Yes" represents Sanger sequencing has been performed to valid the full-length of circRNA, "No" represents the opposite.

						PCR primers for FL   
						
							NA							 PCR primers used in full-length (FL) sequence validation.

Experimental Information
Sanger sequencing for BSS	NA Sanger sequencing for back-splicing site (BSS) validation. "Yes" represents Sanger sequencing has been performed to valid the back-splicing site, "No" represents the opposite, "NA" represents "not available".
PCR primers for BSS	NA PCR primers used in back-splicing site (BSS) validation.
Sanger sequencing for FL	NA Sanger sequencing for full-length (FL) sequence validation of circRNAs. "Yes" represents Sanger sequencing has been performed to valid the full-length of circRNA, "No" represents the opposite.
PCR primers for FL	NA PCR primers used in full-length (FL) sequence validation.

			
				
						 Sequences
					

				
						Splice junction sequence  
						
							TCAGGCAGCATTTCGTGGGACAGGTGGAAACAAAACATCTGTCTCGGAGGGTGTCGAGGCATCT
GTTATATATGTTCGCTTCAAGGCTGCTGCAAATGAGggatctgaaatttcttcctctgcatgtg
ctctcgtggtttcttccttgataattccttgctcattccctgcatgtgactcccgatcatcgtc
ttcctctt

									
								

					

						Assembled circRNA sequence  
						
							Yes
The sequence of a circRNA based on assembly using circseq-cup (Ye et al., 2016) or CIRI-full (Zheng and Zhao, 2018) or CIRCexplorer2 (Zhang et al., 2016).

					

						Full-length trsnacripts
						
							Transcript length: 1038
Transcript exons: 27603949-27604182,27604292-27604375,27604463-27604570,27
604724-27604768,27604866-27604940,27605041-27605136,2760
5350-27605427,27605664-27605749,27605887-27605953,276061
30-27606192,27606379-27606480
GGATCTGAAATTTCTTCCTCTGCATGTGCTCTCGTGGTTTCTTCCTTGATAATTCCTTGCTCAT
TCCCTGCATGTGACTCCCGATCATCGTCTTCCTCTTCCAAGTTACGAATCAAAATCATAGCCGA
GATTCAGATTTCATAGACAATGGCGACTAAGGCGGCTTCGTCTTCCAGCCTCCCCAAATCTGGA
GCCATTTCCAAAGGCTACAATTTCGCTTCGACTTGGGAACAGAGCGCTCCTTTGACAGAGCAGC
AACAAGCAGCTATTGTTTCTTTATCCCACGCAGTCGCTGAGCGGCCATTTCCTGCCAATCTTGT
ACATGAGCATGTTCACAGGCCTGAGAATGGCTTGTCTGTCTCCGTGGAGGACACACATTTGGGA
GATTCTGGAGCAATTGAAGCTGTTTTGGTTAATACAAATCAGTTCTACAAATGGTTTACTGATC
TTGAATCAGCGATGAAGTCTGAGACAGAGGAAAAGTATCGGCACTATGTTAGTACTTTAACTGA
GCGCATCCAGACGTGTGATAATATACTTCACCAGGTTGATGAAACACTTGACCTATTTAACGAA
CTGCAGCTACAACATCAAGGAGTAACAACAAAGACTAAAACTCTTCATGACGCATGTGACCGAC
TGTTAATGGAGAAGCAGAAATTGATGGAATTTGCAGAAGCTCTAAGGAGTAAGCTCAACTATTT
TGATGAACTGGAGAATGTATCCTCTAATTTTTATTCACCAAATATGAATGTATCAAACTCAAAC
TTTCTCCCACTACTGAAACGGCTGGATGAGTGCATATCGTACATCGAAGATAATCCTCAATATG
CGGAGTCGAGTGTTTATTTGCTCAAATTTCGTCAACTCCAGTCACGGGCCTTGGGCATGATTCG
AACTTACATCCTTGCAGTGCTTAAAACGGCTGCTTCTCAGGTTCAGGCAGCATTTCGTGGGACA
GGTGGAAACAAAACATCTGTCTCGGAGGGTGTCGAGGCATCTGTTATATATGTTCGCTTCAAGG
CTGCTGCAAATGAG
						
					

						Genomic sequence
						
							GGATCTGAAATTTCTTCCTCTGCATGTGCTCTCGTGGTTTCTTCCTTGATAATTCCTTGCTCAT
TCCCTGCATGTGACTCCCGATCATCGTCTTCCTCTTCCAAGTTACGAATCAAAATCATAGCCGA
GATTCAGATTTCATAGACAATGGCGACTAAGGCGGCTTCGTCTTCCAGCCTCCCCAAATCTGGA
GCCATTTCCAAAGGCTACAATTTCGCTTCGACTTGGGAACAGGTAATCACACAATCTGATGATC
CAGGAAGATCCATTGATCAGTCTAGTGTCTGGATCTGAATGATGCTCTGTTTGTTGAGAATATA
CTGAATTGAAATTCCCGTTGCAGAGCGCTCCTTTGACAGAGCAGCAACAAGCAGCTATTGTTTC
TTTATCCCACGCAGTCGCTGAGCGGCCATTTCCTGCCAATCTTGTGAGTCTAATGTTATTAGTT
TTGGATTTAGTTCAGAATGTTTTCCCTTTTTTGTGGTTTGATGTCAGTGTTAGTTCATGGTTTT
AGGTACATGAGCATGTTCACAGGCCTGAGAATGGCTTGTCTGTCTCCGTGGAGGACACACATTT
GGGAGATTCTGGAGCAATTGAAGCTGTTTTGGTTAATACAAATCAGGTAGTCTCTTGTACTGCT
ACTTGATATTCCAATGCTTAGCTGATTTGCAGTATTATAGGAGTTGCTTTTGTATTTGTGGGCA
TCTCTTTTTTCTTGCATCTTTATATGTGTACTAATGCGTCTTCATTTTGACGTATGTTGGTTTT
ATTACAGTTCTACAAATGGTTTACTGATCTTGAATCAGCGATGAAGTCTGAGGTTAGTCCGTTA
GTGAAAGTCATGTTGTACCTTGGTTAAAAGTTGGGAAAGATTACTTGAAATGTGTCTAAAATGA
TTTTCTCTTTTTCTGAGTTAGACAGAGGAAAAGTATCGGCACTATGTTAGTACTTTAACTGAGC
GCATCCAGACGTGTGATAATATACTTCACCAGGCAGGTTTTCAACAAGTTTTATGAATTGCTGT
GGTCTTATCTTGCCAATAAATTATAACACGTCTGCTTCATTATTGAACTTGGGATTTCTCCTGC
GCAGGTTGATGAAACACTTGACCTATTTAACGAACTGCAGCTACAACATCAAGGAGTAACAACA
AAGACTAAAACTCTTCATGACGCATGTGACCGACTGGTACCGTTTCCTCTTGTCTTTTATGCAG
CAAGATTATTTATTGTTTCTCTTAATCTCTTGCATGTTTTCCCGTCCTACCTGCTATACATAAT
CAAAATGACAAACAAAAGTTGCTTAATGCATCATGGCTGTTCAAGAGTTTCTGACTCACACTAT
TTGACTGTTGTTGTTTGCTTGGCTGAGCTAATTTTCACTTTCTTCCACTTTTTCTAGTTAATGG
AGAAGCAGAAATTGATGGAATTTGCAGAAGCTCTAAGGAGTAAGCTCAACTATTTTGATGAACT
GGAGAATGTAAGATTTACATTCTGGCCTACCGACATAATTTTTGGCACATATTAAAGTATCAGC
ATGTAGTTGCTTCGGATGGTGCTCTTGTTTTATTCATTAACGTAATATATTTGAATTTTGGCCT
ACTTGTGGTACTTTAGCTCATAGTTCTTTACTGAAGACTGGTTGTAGATTTACGAGGAAATAAC
TCAACAAGGTGTTAAACTGCTCTAATATCTTCTTCTTTCTTTTTTTCGCAGGTATCCTCTAATT
TTTATTCACCAAATATGAATGTATCAAACTCAAACTTTCTCCCACTACTGAAACGGCTGGATGA
GTGCATATCGTGAGTAAATTGATTTTACATTCAATATTATGAAATTTACATCCACTACTTGGCA
ATTTTCCATAAGAATGCCGCACTAATTCTTTCATTTCCCTTGAATTGATTGTAATATGTCTCTT
TTACCTTGAATTCTGTAGGTACATCGAAGATAATCCTCAATATGCGGAGTCGAGTGTTTATTTG
CTCAAATTTCGTCAACTCCAGGTACTACAAAGAGCCCTTCCTGTCTCTGTCTCTCTTCCCTCTC
TTTGTCTCACAGAGAGACGCGTGGGTTACAGTTCATACGCATGCACAAACTCATACATTGTTTC
CAGAATTTATAGGGAGATTAGTATCTTGTAATTTGTTATAGAATATACTAACATTTATATATGT
TACAGTCACGGGCCTTGGGCATGATTCGAACTTACATCCTTGCAGTGCTTAAAACGGCTGCTTC
TCAGGTATTTTCTCTTTCTAATATGCATCTATTCTTTTACAGCTTACAGTAAGCATGTAAATGG
TTCTCATAACTGTGTATATTCATATATTGCATATCTTTATGCATGTAATCTATGCAGGTAGAGT
GAATTGTTAGGTAAGGTTATACCTTAGTTTCACTAAGACATACAAATTAATTCCATTGTCAGGT
TCAGGCAGCATTTCGTGGGACAGGTGGAAACAAAACATCTGTCTCGGAGGGTGTCGAGGCATCT
GTTATATATGTTCGCTTCAAGGCTGCTGCAAATGAG
						
					

			
		

Sequences
Splice junction sequence	TCAGGCAGCATTTCGTGGGACAGGTGGAAACAAAACATCTGTCTCGGAGGGTGTCGAGGCATCT GTTATATATGTTCGCTTCAAGGCTGCTGCAAATGAGggatctgaaatttcttcctctgcatgtg ctctcgtggtttcttccttgataattccttgctcattccctgcatgtgactcccgatcatcgtc ttcctctt
Assembled circRNA sequence	Yes The sequence of a circRNA based on assembly using circseq-cup (Ye et al., 2016) or CIRI-full (Zheng and Zhao, 2018) or CIRCexplorer2 (Zhang et al., 2016).
Full-length trsnacripts	Transcript length: 1038 Transcript exons: 27603949-27604182,27604292-27604375,27604463-27604570,27 604724-27604768,27604866-27604940,27605041-27605136,2760 5350-27605427,27605664-27605749,27605887-27605953,276061 30-27606192,27606379-27606480 GGATCTGAAATTTCTTCCTCTGCATGTGCTCTCGTGGTTTCTTCCTTGATAATTCCTTGCTCAT TCCCTGCATGTGACTCCCGATCATCGTCTTCCTCTTCCAAGTTACGAATCAAAATCATAGCCGA GATTCAGATTTCATAGACAATGGCGACTAAGGCGGCTTCGTCTTCCAGCCTCCCCAAATCTGGA GCCATTTCCAAAGGCTACAATTTCGCTTCGACTTGGGAACAGAGCGCTCCTTTGACAGAGCAGC AACAAGCAGCTATTGTTTCTTTATCCCACGCAGTCGCTGAGCGGCCATTTCCTGCCAATCTTGT ACATGAGCATGTTCACAGGCCTGAGAATGGCTTGTCTGTCTCCGTGGAGGACACACATTTGGGA GATTCTGGAGCAATTGAAGCTGTTTTGGTTAATACAAATCAGTTCTACAAATGGTTTACTGATC TTGAATCAGCGATGAAGTCTGAGACAGAGGAAAAGTATCGGCACTATGTTAGTACTTTAACTGA GCGCATCCAGACGTGTGATAATATACTTCACCAGGTTGATGAAACACTTGACCTATTTAACGAA CTGCAGCTACAACATCAAGGAGTAACAACAAAGACTAAAACTCTTCATGACGCATGTGACCGAC TGTTAATGGAGAAGCAGAAATTGATGGAATTTGCAGAAGCTCTAAGGAGTAAGCTCAACTATTT TGATGAACTGGAGAATGTATCCTCTAATTTTTATTCACCAAATATGAATGTATCAAACTCAAAC TTTCTCCCACTACTGAAACGGCTGGATGAGTGCATATCGTACATCGAAGATAATCCTCAATATG CGGAGTCGAGTGTTTATTTGCTCAAATTTCGTCAACTCCAGTCACGGGCCTTGGGCATGATTCG AACTTACATCCTTGCAGTGCTTAAAACGGCTGCTTCTCAGGTTCAGGCAGCATTTCGTGGGACA GGTGGAAACAAAACATCTGTCTCGGAGGGTGTCGAGGCATCTGTTATATATGTTCGCTTCAAGG CTGCTGCAAATGAG
Genomic sequence	GGATCTGAAATTTCTTCCTCTGCATGTGCTCTCGTGGTTTCTTCCTTGATAATTCCTTGCTCAT TCCCTGCATGTGACTCCCGATCATCGTCTTCCTCTTCCAAGTTACGAATCAAAATCATAGCCGA GATTCAGATTTCATAGACAATGGCGACTAAGGCGGCTTCGTCTTCCAGCCTCCCCAAATCTGGA GCCATTTCCAAAGGCTACAATTTCGCTTCGACTTGGGAACAGGTAATCACACAATCTGATGATC CAGGAAGATCCATTGATCAGTCTAGTGTCTGGATCTGAATGATGCTCTGTTTGTTGAGAATATA CTGAATTGAAATTCCCGTTGCAGAGCGCTCCTTTGACAGAGCAGCAACAAGCAGCTATTGTTTC TTTATCCCACGCAGTCGCTGAGCGGCCATTTCCTGCCAATCTTGTGAGTCTAATGTTATTAGTT TTGGATTTAGTTCAGAATGTTTTCCCTTTTTTGTGGTTTGATGTCAGTGTTAGTTCATGGTTTT AGGTACATGAGCATGTTCACAGGCCTGAGAATGGCTTGTCTGTCTCCGTGGAGGACACACATTT GGGAGATTCTGGAGCAATTGAAGCTGTTTTGGTTAATACAAATCAGGTAGTCTCTTGTACTGCT ACTTGATATTCCAATGCTTAGCTGATTTGCAGTATTATAGGAGTTGCTTTTGTATTTGTGGGCA TCTCTTTTTTCTTGCATCTTTATATGTGTACTAATGCGTCTTCATTTTGACGTATGTTGGTTTT ATTACAGTTCTACAAATGGTTTACTGATCTTGAATCAGCGATGAAGTCTGAGGTTAGTCCGTTA GTGAAAGTCATGTTGTACCTTGGTTAAAAGTTGGGAAAGATTACTTGAAATGTGTCTAAAATGA TTTTCTCTTTTTCTGAGTTAGACAGAGGAAAAGTATCGGCACTATGTTAGTACTTTAACTGAGC GCATCCAGACGTGTGATAATATACTTCACCAGGCAGGTTTTCAACAAGTTTTATGAATTGCTGT GGTCTTATCTTGCCAATAAATTATAACACGTCTGCTTCATTATTGAACTTGGGATTTCTCCTGC GCAGGTTGATGAAACACTTGACCTATTTAACGAACTGCAGCTACAACATCAAGGAGTAACAACA AAGACTAAAACTCTTCATGACGCATGTGACCGACTGGTACCGTTTCCTCTTGTCTTTTATGCAG CAAGATTATTTATTGTTTCTCTTAATCTCTTGCATGTTTTCCCGTCCTACCTGCTATACATAAT CAAAATGACAAACAAAAGTTGCTTAATGCATCATGGCTGTTCAAGAGTTTCTGACTCACACTAT TTGACTGTTGTTGTTTGCTTGGCTGAGCTAATTTTCACTTTCTTCCACTTTTTCTAGTTAATGG AGAAGCAGAAATTGATGGAATTTGCAGAAGCTCTAAGGAGTAAGCTCAACTATTTTGATGAACT GGAGAATGTAAGATTTACATTCTGGCCTACCGACATAATTTTTGGCACATATTAAAGTATCAGC ATGTAGTTGCTTCGGATGGTGCTCTTGTTTTATTCATTAACGTAATATATTTGAATTTTGGCCT ACTTGTGGTACTTTAGCTCATAGTTCTTTACTGAAGACTGGTTGTAGATTTACGAGGAAATAAC TCAACAAGGTGTTAAACTGCTCTAATATCTTCTTCTTTCTTTTTTTCGCAGGTATCCTCTAATT TTTATTCACCAAATATGAATGTATCAAACTCAAACTTTCTCCCACTACTGAAACGGCTGGATGA GTGCATATCGTGAGTAAATTGATTTTACATTCAATATTATGAAATTTACATCCACTACTTGGCA ATTTTCCATAAGAATGCCGCACTAATTCTTTCATTTCCCTTGAATTGATTGTAATATGTCTCTT TTACCTTGAATTCTGTAGGTACATCGAAGATAATCCTCAATATGCGGAGTCGAGTGTTTATTTG CTCAAATTTCGTCAACTCCAGGTACTACAAAGAGCCCTTCCTGTCTCTGTCTCTCTTCCCTCTC TTTGTCTCACAGAGAGACGCGTGGGTTACAGTTCATACGCATGCACAAACTCATACATTGTTTC CAGAATTTATAGGGAGATTAGTATCTTGTAATTTGTTATAGAATATACTAACATTTATATATGT TACAGTCACGGGCCTTGGGCATGATTCGAACTTACATCCTTGCAGTGCTTAAAACGGCTGCTTC TCAGGTATTTTCTCTTTCTAATATGCATCTATTCTTTTACAGCTTACAGTAAGCATGTAAATGG TTCTCATAACTGTGTATATTCATATATTGCATATCTTTATGCATGTAATCTATGCAGGTAGAGT GAATTGTTAGGTAAGGTTATACCTTAGTTTCACTAAGACATACAAATTAATTCCATTGTCAGGT TCAGGCAGCATTTCGTGGGACAGGTGGAAACAAAACATCTGTCTCGGAGGGTGTCGAGGCATCT GTTATATATGTTCGCTTCAAGGCTGCTGCAAATGAG

			
						 Conservation Information
					
						Conserved circRNAs
						
							NA						
					
						PMCS
						0.296937133

Conservation Information
Conserved circRNAs	NA
PMCS	0.296937133

			
						 Functional Information
					
						Coding potential
						NA
					
						Potential coding position
						
							NA
						
						Potential amino acid sequence
						
							NA
						
						Sponge-miRNAs
						
							NA						
					
						circRNA-miRNA-mRNA network
						 VISUALIZATION
					
						Potential function description
						NA

Functional Information
Coding potential	NA
Potential coding position	NA
Potential amino acid sequence	NA
Sponge-miRNAs	NA
circRNA-miRNA-mRNA network	VISUALIZATION
Potential function description	NA

			
						 Other Information
					
						References
						Philips et al., 2020

circRNA

Detail information of AT1G73430_circ_g.4

Address

Any questions?

Supported by