The Consensus Coding Sequence (CCDS) Project is a collaborative effort to maintain a dataset of protein-coding regions that are identically annotated on the human and mouse reference genome assemblies. The CCDS project tracks identical protein annotations on the reference mouse and human genomes with a stable identifier (CCDS ID), and ensures that they are consistently represented by the National Center for Biotechnology Information (NCBI),

Ensembl Ensembl genome database project is a scientific project at the European Bioinformatics Institute, which provides a centralized resource for geneticists, molecular biologists and other researchers studying the genomes of our own species and other v ...

, and

UCSC Genome Browser The UCSC Genome Browser is an online and downloadable genome browser hosted by the University of California, Santa Cruz (UCSC). It is an interactive website offering access to genome sequence data from a variety of vertebrate and invertebrate spec ...

. The integrity of the CCDS dataset is maintained through stringent quality assurance testing and on-going manual curation.

Motivation and background

Biological and biomedical research has come to rely on accurate and consistent annotation of genes and their products on genome assemblies. Reference annotations of genomes are available from various sources, each with their own independent goals and policies, which results in some annotation variation. The CCDS project was established to identify a gold standard set of protein-coding gene annotations that are identically annotated on the human and mouse

reference genome A reference genome (also known as a reference assembly) is a digital nucleic acid sequence database, assembled by scientists as a representative example of the set of genes in one idealized individual organism of a species. As they are assemble ...

assemblies by the participating annotation groups. The CCDS gene sets that have been arrived at by consensus of the different partners now consist of over 18,000 human and over 20,000 mouse genes (see CCDS release history). The CCDS dataset is increasingly representing more

alternative splicing Alternative splicing, or alternative RNA splicing, or differential splicing, is an alternative splicing process during gene expression that allows a single gene to code for multiple proteins. In this process, particular exons of a gene may be i ...

events with each new release.

Contributing groups

Participating annotation groups include: * National Center for Biotechnology Information (NCBI) * European Bioinformatics Institute (EBI) * Wellcome Trust Sanger Institute (WTSI) * HUGO Gene Nomenclature Committee (HGNC) * Mouse Genome Informatics (MGI) Manual annotation is provided by: * Reference Sequence (

RefSeq The Reference Sequence (RefSeq) database is an open access, annotated and curated collection of publicly available nucleotide sequences ( DNA, RNA) and their protein products. RefSeq was first introduced in 2000. This database is built by National ...

) at NCBI * Human and Vertebrate Analysis and Annotation (HAVANA) at WTSI

Defining the CCDS gene set

"Consensus" is defined as protein-coding regions that agree at the start codon, stop codon, and splice junctions, and for which the prediction meets quality assurance benchmarks. A combination of manual and automated genome annotations provided by (NCBI) and

(which incorporates manual HAVANA annotations) are compared to identify annotations with matching genomic coordinates.

Quality assurance testing

In order to ensure that CDSs are of high quality, multiple quality assurance (QA) tests are performed (Table 1). All tests are performed following the annotation comparison step of each CCDS build and are independent of individual annotation group QA tests performed prior to the annotation comparison. Annotations that fail QA tests undergo a round of manual checking that may improve results or reach a decision to reject annotation matches based on QA failure.

Review process

The CCDS database is unique in that the review process must be carried out by multiple collaborators, and agreement must be reached before any changes can be made. This is made possible with a collaborator coordination system that includes a work process flow and forums for analysis and discussion. The CCDS database operates an internal website that serves multiple purposes including curator communication, collaborator voting, providing special reports and tracking the status of CCDS representations. When a collaborating CCDS group member identifies a CCDS ID that may need review, a voting process is employed to decide on the final outcome.

Manual curation

Coordinated manual curation is supported by a restricted-access website and a discussion e-mail list. CCDS curation guidelines were established to address specific conflicts that were observed at a higher frequency. Establishment of CCDS curation guidelines has helped to make the CCDS curation process more efficient by reducing the number of conflicting votes and time spent in discussion to reach a consensus agreement. A link to the CCDS curation guidelines can be foun
here
Curation policies established for the CCDS data set have been integrated in to the

and HAVANA annotation guidelines and thus, new annotations provided by both groups are more likely to be concordant and result in addition of a CCDS ID. These standards address specific problem areas, are not a comprehensive set of annotation guidelines, and do not restrict the annotation policies of any collaborating group. Examples include, standardized curation guidelines for selection of the initiation codon and interpretation of upstream ORFs and transcripts that are predicted to be candidates for

nonsense-mediated decay Nonsense-mediated mRNA decay (NMD) is a surveillance pathway that exists in all eukaryotes. Its main function is to reduce errors in gene expression by eliminating mRNA transcripts that contain premature stop codons. Translation of these aberrant ...

. Curation occurs continuously, and any of the collaborating centers can flag a CCDS ID as a potential update or withdrawal. Conflicting opinions are addressed by consulting with scientific experts or other annotation curation groups such as the HUGO Gene Nomenclature Committee (HGNC) and Mouse Genome Informatics (MGI). If a conflict cannot be resolved, then collaborators agree to withdraw the CCDS ID until more information becomes available.

Curation challenges and annotation guidelines

Nonsense-mediated decay (NMD): NMD is the most powerful

mRNA In molecular biology, messenger ribonucleic acid (mRNA) is a single-stranded molecule of RNA that corresponds to the genetic sequence of a gene, and is read by a ribosome in the process of synthesizing a protein. mRNA is created during the ...

surveillance process. NMD eliminates defective

before it can be translated into protein. This is important because if the defective

is translated, the truncated protein may cause disease. Different mechanisms have been proposed to explain NMD; one being the

exon junction complex An exon junction complex (EJC) is a protein complex which forms on a pre-messenger RNA strand at the junction of two exons which have been joined together during RNA splicing. The EJC has major influences on translation, surveillance and locali ...

(EJC) model. In this model, if the stop codon is >50 nt upstream of the last exon-exon junction, the transcript is assumed to be a NMD candidate. The CCDS collaborators use a conservative method, based on the EJC model, to screen mRNA transcripts. Any transcripts determined to be NMD candidates are excluded from the CCDS data set except in the following situations: # all transcripts at one particular locus are assessed to be NMD candidates however the locus is previously known to be protein coding region; # there is experimental evidence suggesting that a functional protein is produced from the NMD candidate transcript. Previously, NMD candidate transcripts were considered to be protein coding transcripts by both

and HAVANA, and thereby, these NMD candidate transcripts were represented in the CCDS data set. The

group and the HAVANA project have subsequently revised their annotation policies. Multiple in-frame translation start sites: Multiple factors contribute to translation initiation, such as upstream

open reading frame In molecular biology, open reading frames (ORFs) are defined as spans of DNA sequence between the start and stop codons. Usually, this is considered within a studied region of a prokaryotic DNA sequence, where only one of the six possible readi ...

s (uORFs), secondary structure and the sequence context around the translation initiation site. A common start site is defined within Kozak consensus sequence: (GCC) GCCACCAUGG in vertebrates. The sequence in brackets (GCC) is the motif with unknown biological impact. There are variations within Kozak consensus sequence, such as G or A is observed three nucleotides upstream (at position -3) of AUG. Bases between positions -3 and +4 of Kozak sequence have the most significant impact on translational efficiency. Hence, a sequence (A/G)NNAUGG is defined as a strong Kozak signal in the CCDS project. According to the scanning mechanism, the small ribosomal subunit can initiate translation from the first reached start codon. There are exceptions to the scanning model: # when the initiation site is not surrounded by a strong Kozak signal, which results in leaky scanning. Thereby, the

ribosome Ribosomes ( ) are macromolecular machines, found within all cells, that perform biological protein synthesis (mRNA translation). Ribosomes link amino acids together in the order specified by the codons of messenger RNA (mRNA) molecules to fo ...

skips this AUG and initiates translation from a downstream start site; # when a shorter ORF can allow the

to re-initiate translation at a downstream ORF. According to the CCDS annotation guidelines, the longest ORF must be annotated except when there is experimental evidence that an internal start site is used to initiate translation. Additionally, other types of new data, such as ribosome profiling data, can be used to identify start codons. The CCDS data set records one translation initiation site per CCDS ID. Any alternative start sites may be used for translation and will be stated in a CCDS public note. Upstream open reading frames: AUG initiation codons located within transcript leaders are known as upstream AUGs (uAUGs). Sometimes, uAUGs are associated with u ORFs . u ORFs are found in approximately 50% of human and mouse transcripts. The existence of u ORFs are another challenge for the CCDS data set. The scanning mechanism for translation initiation suggests that small ribosomal subunits (40S) bind at the 5’ end of a nascent

transcript and scan for the first AUG start codon. It is possible that an uAUG is recognised first, and the corresponding uORF is then translated. The translated u ORF could be a NMD candidate, although studies have shown that some u ORFs can avoid NMD. The average size limit for u ORFs that will escape NMD is approximately 35

amino acid Amino acids are organic compounds that contain both amino and carboxylic acid functional groups. Although hundreds of amino acids exist in nature, by far the most important are the alpha-amino acids, which comprise proteins. Only 22 alpha ...

s. It also has been suggested that u ORFs inhibit translation of the downstream gene by trapping a

initiation complex and causing the

to dissociate from the

transcript before it reaches the protein-coding regions. Currently, no studies have reported the global impact of u ORFs on translational regulation. The current CCDS annotation guidelines allow the inclusion of

transcripts containing u ORFs if they meet the following two biological requirements: # the

transcript has a strong Kozak signal; # the

transcript is either ≥ 35

s or overlaps with the primary

. Read-through transcripts: Read-through transcripts are also known as conjoined genes or co-transcribed genes. Read-through transcripts are defined as transcripts combining at least part of one exon from each of two or more distinct known (partner) genes which lie on the same chromosome in the same orientation. The biological function of read-through transcripts and their corresponding protein molecules remain unknown. However, the definition of a read-through gene in the CCDS data set is that the individual partner genes must be distinct, and the read-through transcripts must share ≥ 1 exon (or ≥ 2 splice sites except in the case of a shared terminal exon) with each of the distinct shorter loci. Transcripts are not considered to be read-through transcripts in the following circumstances: # when transcripts are produced from overlapping genes but do not share same splice sites; # when transcripts are translated from genes that have nested structures relative to each other. In this instance, the CCDS collaborators and the

HGNC The HUGO Gene Nomenclature Committee (HGNC) is a committee of the Human Genome Organisation (HUGO) that sets the standards for human gene nomenclature. The HGNC approves a ''unique'' and ''meaningful'' name for every known human gene, based on a q ...

have agreed that the read-through transcript be represented as a separate locus. Quality of reference genome sequence: As the CCDS data set is built to represent genomic annotations of human and mouse, the quality problems with the human and mouse

sequences become another challenge. Quality problems occur when the reference genome is misassembled. Thereby the misassembled genome may contain premature

stop codon In molecular biology (specifically protein biosynthesis), a stop codon (or termination codon) is a codon (nucleotide triplet within messenger RNA) that signals the termination of the translation process of the current protein. Most codons in mess ...

s, frame-shift indels, or likely polymorphic

pseudogene Pseudogenes are nonfunctional segments of DNA that resemble functional genes. Most arise as superfluous copies of functional genes, either directly by DNA duplication or indirectly by reverse transcription of an mRNA transcript. Pseudogenes ar ...

s. Once these quality problems are identified, the CCDS collaborators report the issues to the Genome Reference Consortium, which investigates and makes the necessary corrections.

Access to CCDS data

The CCDS project is available from the NCBI CCDS data set pag
(here)
which provides FTP download links and a query interface to acquire information about CCDS sequences and locations. CCDS reports can be obtained by using the query interface, which is located at the top of the CCDS data set page. Users can select various types of identifiers such as CCDS ID, gene ID, gene symbol, nucleotide ID and protein ID to search for specific CCDS information. The CCDS reports (Figure 1) are presented in a table format, providing links to specific resources, such as a history report, Entrez Gene or re-query the CCDS data set. The sequence identifiers table presents transcript information in

VEGA Vega is the brightest star in the northern constellation of Lyra. It has the Bayer designation α Lyrae, which is Latinised to Alpha Lyrae and abbreviated Alpha Lyr or α Lyr. This star is relatively close at only from the Sun, a ...

an
Blink
The chromosome location table includes the genomic coordinates for each individual exon of the specific coding sequence. This table also provides links to several different genome browsers, which allow you to visualise the structure of the coding region. Exact nucleotide sequence and protein sequence of the specific coding sequence are also displayed in the section of CCDS sequence data. Itm2a report

Current applications

The CCDS dataset is an integral part of the GENCODE gene annotation project and it is used as a standard for high-quality coding exon definition in various research fields, including clinical studies, large-scale epigenomic studies,

exome The exome is composed of all of the exons within the genome, the sequences which, when transcribed, remain within the mature RNA after introns are removed by RNA splicing. This includes untranslated regions of messenger RNA (mRNA), and coding re ...

projects and exon array design. Due to the consensus annotation of CCDS exons by the independent annotation groups,

projects in particular have regarded CCDS coding exons as reliable targets for downstream studies (e.g., for single nucleotide variant detection), and these exons have been used as

coding region The coding region of a gene, also known as the coding sequence (CDS), is the portion of a gene's DNA or RNA that codes for protein. Studying the length, composition, regulation, splicing, structures, and functions of coding regions compared to n ...

targets in commercially available

kits.

CCDS release history

The CCDS data set size has continued to increase with both the computational genome annotation updates, which integrate new data sets submitted to the International Nucleotide Sequence Database Collaboratio
(INSDC
, and on ongoing curation activities that supplement or improve upon that annotation. Table 2 summarises the key statistics for each CCDS build where Public CCDS IDs are all those that were not under review or pending an update or withdrawal at the time of the current release date. The complete set of release statistics can be found at the official CCDS website on thei
Releases & Statistics
page.

Future prospects

Long-term goals include the addition of attributes that indicate where transcript annotation is also identical (including the UTRs) and to indicate splice variants with different UTRs that have the same CCDS ID. It is also anticipated that as more complete and high-quality genome sequence data become available for other organisms, annotations from these organisms may be in scope for CCDS representation. The CCDS set will become more complete as the independent curation groups agree on cases where they initially differ, as additional experimental validation of weakly supported genes occurs, and as automatic annotation methods continue to improve. Communication among the CCDS collaborating groups is ongoing and will resolve differences and identify refinements between CCDS update cycles. Human updates are expected to occur roughly every 6 months and mouse releases yearly.

References

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External links

CCDS home page
Biological databases Genetic engineering in the United Kingdom Genetics databases Science and technology in Cambridgeshire South Cambridgeshire District Wellcome Trust