Description

This track shows multiple alignments of 11 primate assemblies on this target/reference assembly (siamang - 2024-01-05 - National Human Genome Research Institute, National Institutes of Health).

The multiple alignments were generated using multiz and other tools in the UCSC/Penn State Bioinformatics comparative genomics alignment pipeline.

count alignment
percent assembly and
browser link maf file
type common name/assembly date
assembly submitter

01 81.412 GCA_028885625.2 syntenic net Bornean orangutan/2024-01-08/NHGRI/NIH

02 81.382 GCA_029281585.2 syntenic net western lowland gorilla/2024-01-08/NHGRI/NIH

03 81.379 GCA_028885655.2 syntenic net Sumatran orangutan/2024-01-05/NHGRI/NIH

04 81.295 hg38 syntenic net Human/hg38/Dec. 2013 (GRCh38/hg38)/GRCh38 Genome Reference Consortium Human Reference 38 (GCA_000001405.15)

05 81.290 GCA_028858775.2 syntenic net chimpanzee/2024-01-08/NHGRI/NIH

06 81.285 GCA_029289425.2 syntenic net pygmy chimpanzee/2024-01-08/NHGRI/NIH

07 81.278 hs1 syntenic net Human/hs1/Jan. 2022 (T2T CHM13v2.0/hs1)/Telomere to telomere (T2T) assembly of haploid CHM13 + chrY (GCA_009914755.4)

08 62.736 GCF_011100555.1 maf net white-tufted-ear marmoset/2021-04-28/VGP

09 29.935 GCF_020740605.2 maf net Ring-tailed lemur/2021-11-04/VGP

10 13.927 GCF_027406575.1 maf net slow loris/2022-12-28/VGP

count	alignment percent	assembly and browser link	maf file type	common name/assembly date assembly submitter
01	81.412	GCA_028885625.2	syntenic net	Bornean orangutan/2024-01-08/NHGRI/NIH
02	81.382	GCA_029281585.2	syntenic net	western lowland gorilla/2024-01-08/NHGRI/NIH
03	81.379	GCA_028885655.2	syntenic net	Sumatran orangutan/2024-01-05/NHGRI/NIH
04	81.295	hg38	syntenic net	Human/hg38/Dec. 2013 (GRCh38/hg38)/GRCh38 Genome Reference Consortium Human Reference 38 (GCA_000001405.15)
05	81.290	GCA_028858775.2	syntenic net	chimpanzee/2024-01-08/NHGRI/NIH
06	81.285	GCA_029289425.2	syntenic net	pygmy chimpanzee/2024-01-08/NHGRI/NIH
07	81.278	hs1	syntenic net	Human/hs1/Jan. 2022 (T2T CHM13v2.0/hs1)/Telomere to telomere (T2T) assembly of haploid CHM13 + chrY (GCA_009914755.4)
08	62.736	GCF_011100555.1	maf net	white-tufted-ear marmoset/2021-04-28/VGP
09	29.935	GCF_020740605.2	maf net	Ring-tailed lemur/2021-11-04/VGP
10	13.927	GCF_027406575.1	maf net	slow loris/2022-12-28/VGP

Alignments identity

showing percent identity, how much of the target is matched by the query
chains syntenic reciprocal
best lift
over common
name assembly

81.412 80.736 77.837 81.372 Bornean orangutan GCA_028885625.2

81.382 80.559 77.455 81.335 western lowland gorilla GCA_029281585.2

81.379 80.705 77.828 81.341 Sumatran orangutan GCA_028885655.2

81.295 80.447 77.315 81.226 Human hg38

81.290 80.505 77.400 81.250 chimpanzee GCA_028858775.2

81.285 80.442 77.384 81.244 pygmy chimpanzee GCA_029289425.2

81.278 80.475 77.353 81.231 Human hs1

62.736 61.843 60.015 62.676 white-tufted-ear marmoset GCF_011100555.1

29.935 29.277 28.347 29.906 Ring-tailed lemur GCF_020740605.2

13.927 12.972 13.320 13.902 slow loris GCF_027406575.1

showing percent identity, how much of the target is matched by the query
chains	syntenic	reciprocal best	lift over	common name	assembly
81.412	80.736	77.837	81.372	Bornean orangutan	GCA_028885625.2
81.382	80.559	77.455	81.335	western lowland gorilla	GCA_029281585.2
81.379	80.705	77.828	81.341	Sumatran orangutan	GCA_028885655.2
81.295	80.447	77.315	81.226	Human	hg38
81.290	80.505	77.400	81.250	chimpanzee	GCA_028858775.2
81.285	80.442	77.384	81.244	pygmy chimpanzee	GCA_029289425.2
81.278	80.475	77.353	81.231	Human	hs1
62.736	61.843	60.015	62.676	white-tufted-ear marmoset	GCF_011100555.1
29.935	29.277	28.347	29.906	Ring-tailed lemur	GCF_020740605.2
13.927	12.972	13.320	13.902	slow loris	GCF_027406575.1

Display Conventions and Configuration

In full and pack display modes, conservation scores are displayed as a wiggle track (histogram) in which the height reflects the size of the score. The conservation wiggles can be configured in a variety of ways to highlight different aspects of the displayed information. Click the Graph configuration help link for an explanation of the configuration options.

Methods

Pairwise alignments of each species to the siamang//hive/data/genomes/asmHubs/genbankBuild/GCA/028/878/055/GCA_028878055.2_NHGRI_mSymSyn1-v2.0_pri/html/GCA_028878055.2_NHGRI_mSymSyn1-v2.0_pri.names.tab/GCA_028878055.2/2024-01-05 genome are displayed below the conservation histogram as a grayscale density plot (in pack mode) or as a wiggle (in full mode) that indicates alignment quality. In dense display mode, conservation is shown in grayscale using darker values to indicate higher levels of overall conservation as scored by phastCons.

Checkboxes on the track configuration page allow selection of the species to include in the pairwise display. Note that excluding species from the pairwise display does not alter the the conservation score display.

To view detailed information about the alignments at a specific position, zoom the display in to 30,000 or fewer bases, then click on the alignment.

Credits

This track was created using the following programs:

Alignment tools: lastz (formerly blastz) and multiz by Minmei Hou, Scott Schwartz and Webb Miller of the Penn State Bioinformatics Group
Chaining and Netting: axtChain, chainNet by Jim Kent at UCSC
Conservation scoring: phastCons, phyloP, phyloFit, tree_doctor, msa_view and other programs in PHAST by Adam Siepel at Cold Spring Harbor Laboratory (original development done at the Haussler lab at UCSC).
MAF Annotation tools: mafAddIRows by Brian Raney, UCSC; mafAddQRows by Richard Burhans, Penn State; genePredToMafFrames by Mark Diekhans, UCSC
Tree image generator: phyloPng by Galt Barber, UCSC
Conservation track display: Kate Rosenbloom, Hiram Clawson (wiggle display), and Brian Raney (gap annotation and codon framing) at UCSC

References

Harris RS. Improved pairwise alignment of genomic DNA. Ph.D. Thesis. Pennsylvania State University, USA. 2007.

PhyloP:

Cooper GM, Stone EA, Asimenos G, NISC Comparative Sequencing Program., Green ED, Batzoglou S, Sidow A. Distribution and intensity of constraint in mammalian genomic sequence. Genome Res. 2005 Jul;15(7):901-13. PMID: 15965027; PMC: PMC1172034; DOI: 10.1101/gr.3577405

Pollard KS, Hubisz MJ, Rosenbloom KR, Siepel A. Detection of nonneutral substitution rates on mammalian phylogenies. Genome Res. 2010 Jan;20(1):110-21. PMID: 19858363; PMC: PMC2798823

Siepel A, Haussler D. Phylogenetic Hidden Markov Models. In: Nielsen R, editor. Statistical Methods in Molecular Evolution. New York: Springer; 2005. pp. 325-351. DOI: 10.1007/0-387-27733-1_12

Siepel A, Pollard KS, and Haussler D. New methods for detecting lineage-specific selection. In Proceedings of the 10th International Conference on Research in Computational Molecular Biology (RECOMB 2006), pp. 190-205. DOI: 10.1007/11732990_17