A Standard For Maize Genetics Nomenclature
From MNL 69:182-184 (1995), as updated Sep 1996; Apr 2000; Apr 2002; Oct 2006.
PREAMBLE: We wish to have a system that is consistent, compatible with the historical background of maize genetics (insofar as these two goals can be reconciled), is easily understood by plant geneticists working with other species, and forms the basis for the importation of maize data into a general plant genetics data base so that the basic knowledge concerning maize genes is available to researchers with other species and vice versa. We believe that this goal is best implemented by the researchers in each species having their own working vocabulary, while the identification of genes that catalyze the same functions in all species should rely on entry into a relational data base of the genes' function as an E.C. number (188.8.131.52), trivial name (sucrose synthase), and systematic name (UDPglucose:D-fructose 2-glucosyltransferase). The situation can be less completely categorized for genes whose products are transcription factors, structural proteins, storage proteins, etc.
If one accepts the premise outlined above that the common ground between species need not reside in the working vocabulary of geneticists using any species as a model system but in the manner in which their data are expressed in the data base, then the previously adopted names for maize genes can be retained. It will not be necessary to rename the genes previously named on the basis of the mutant phenotype produced as soon as the function of the nonmutant alleles becomes known, but we should proceed to define more precisely words or terms whose meanings need clarification and to decide how we wish to deal with the new information becoming available.
1. DEFINITIONS: The words "locus" and "gene" should not be treated as synonymous. A locus can be defined as "a chromosomal site of variable size at or within which is located a gene, a restriction site, a knob, a breakpoint, an insertion, or other distinguishable feature". This necessitates specifying whether we mean a gene locus or an RFLP locus, etc. We can then define a plant gene as "a DNA sequence of which a segment is regularly or conditionally transcribed at some time in either or both generations of the plant. The DNA is understood to include not only the exons and introns of the structural gene but the cis 5' and 3' regions in which a sequence change can affect gene expression". This treats the gene as a functionally defined entity that is not circumscribed by the transcribed region or other fixed limits.
2. ANONYMOUS TRANSCRIPTS: For most of the history of genetics, the existence of a gene was recognized when a mutation occurred, and the gene was then named by a word/term that was descriptive of the mutant phenotype. That will continue to be the practice except with isozyme markers, for which the designation will be the enzyme in question, or the instances in which the biochemical lesion responsible for the mutant phenotype is identified before the locus is reported. The loci of these genes have then been placed on chromosome maps in relation to other mapped loci. However, we now have the possibility of recognizing genes in which no mutation has been detected through the construction of cDNA libraries. These anonymous cDNAs are often used as probes in RFLP mapping. When such a probe hybridizes to a single band, it is clear that the RFLP loci circumscribe the transcriptional unit that encodes the message represented by the cDNA, and these RFLP loci with other RFLP loci can be used as the basis for mapping the gene. Mapping a locus in this fashion is encouraged as a means of obtaining maximum coverage of the genome. As long as the locus retains an anonymous status (unknown function or no mutant phenotype), the symbol for the locus should be assigned according to the convention used for RFLP loci (as umc148, see Section 8). Further information about the probe and its derivation is best provided in tabular or data base form rather than in the symbol itself.
Black Flirt Chiffon Pump Adrianna Papell Women's A gene name identifying function for a locus detected with a cloned sequence should be given only when there is unambiguous evidence that this is the site by which that function is encoded. Particular caution should be taken in identifying genes (and their function) from several RFLPs hybridizing to a gene-specific probe from another organism. Until a sequence has been shown to encode the function in question, the gene designation should be that of an RFLP locus (see Section 8).
The decision was made to not utilize the parenthetic 'gfu' designation for "gene, function unknown". RATIONALE: in common usage, the 'gfu' suffix has proven confusing, implying 'known function', especially to researchers from other species. The confusion arises from the practice in RFLP naming to include parenthetic acronyms where sites are detected by probes with an assigned or putative identity with a particular gene product.
Women's Chiffon Adrianna Papell Pump Black Flirt 3. STANDARD NOMENCLATURE AND SYMBOLS: The names and symbols that have been used for maize genes should be retained. The name and symbol of a gene locus should be represented with lower-case, italic characters (defective kernel12, dek12). Note that no hyphen separates the gene name from a numerical suffix, which is a change from previous usage. We use a hyphen in the case of mutant alleles to separate the allele designation from a suffix specifying the particular allele (see Section 5). We advocate strongly that all genes identified in the future be given a three letter symbol. Newly detected maize genes that have been previously identified in other plant species should be named where appropriate (see the last paragraph in Section 2) with reference to the list of generic names compiled by the Commission on Plant Gene Nomenclature.
When designating homozygous genotypes with two or more unlinked genes, the genes are separated by semicolons, e.g. a1;a2;c1;c2;r. If linked, the genes are separated by spaces, e.g.Adrianna Black Papell Flirt Chiffon Women's Pump C1 sh1 bz1 Wx1. Heterozygous genotypes should be written with a slash separating the sets of linked genes, e.g. C1 Bz1/c1 bz1. If the genes are unlinked, the proper designation is Sh2/sh2; Bt2/bt2.
4. LOCI WITH THE SAME GENE NAME: Where we have more than one nonallelic mutant with the same gene name, the earlier recommendation was that the first one to receive that name should not have a numerical suffix but the second has 2 as a suffix. Thus we have shrunken (sh), shrunken2 (sh2), and shrunken4 (sh4) mutants. Geneticists outside the maize community are apt to misinterpret this convention. We recommend that we be consistent and write shrunken1 or sh1 and advocate that even if a new locus is identified and given a unique name, it be designated as 1. This has the definite advantage in maintaining data bases and indices that no retrospective correction would be necessary if a second gene locus receives the same designation.
5. ALLELIC DESIGNATIONS: Where a mutant allele is recessive, it should be designated by an italicized symbol (lower case) as dek12, which is the same as the symbol of the locus. Since it is unlikely that any two mutant or nonmutant alleles in a highly polymorphic species such as maize have identical sequences, maize geneticists are encouraged to specify the particular allele with which they are working (see in this Section, Alleles of Independent Mutational Origin and Designation of Nonmutant Alleles). The symbol for dominant, nonmutant (i.e., conditioning a normal phenotype) alleles will be the same italicized three letter symbol as the mutant alleles but with the first letter capitalized (Dek12). The symbol of the gene product should not be italicized and should be written with all letters capitalized (e.g., ADH1). The name of the gene product (alcohol dehydrogenase) should neither be capitalized nor italicized.
When the mutant alleles of a gene are dominant, the first letter of the mutant symbol is capitalized. The nonmutant symbol has all the letters lower case. For example, the corn grass1 (cg1) gene locus has several dominant mutant (Cg1) alleles as well as nonmutant (cg1) alleles. The reference mutant allele is designated as Cg1-R or -1.
Codominant alleles such as isozymes where the variants are functional and distinguished from each other by electrophoretic mobility, should be designated by symbols with the first letter capitalized and identified by allelic specifications as Pgm2-5 or Pgm2-7.
The decision was made to use '-', rather than '+', in designations of non-mutant alleles. RATIONALE: use of '+' has met with resistance by journal editors; definition of non-mutant alleles can be a grey area.
5.1. ALLELES OF INDEPENDENT MUTATIONAL ORIGIN: The unambiguous designation of mutant alleles that have arisen as independent mutational events is increasingly important. It is generally understood that a gene symbol followed by a hyphen plus a letter or number(s) specifies a particular recessive allele at that gene locus. We have referred to the mutation by which the gene was identified as the reference allele; e.g. bz1-Ref or bz1-R. It is equally appropriate to refer to that allele as bz1-1. The mutations in any gene that were identified subsequently have been categorized in various idiosyncratic ways. Alleles that have arisen by independent mutational events have been designated by letters, numbers, a letter plus numbers, the name of the inbred in which the mutation occurred, and sometimes all of these applied to a group of alleles at a gene locus. While all of these designations served the purpose of indicating that these alleles had independent mutational origins, there is a clear advantage to greater standardization. As in the 1973 Nomenclature Standard, it is recommended that new alleles be identified by a laboratory number that might indicate the year of isolation as sh2-6801. This has the definite advantage that two laboratories are unlikely to designate two new mutations of the same gene by the same number. However, if two laboratories are targeting the same locus in mutagenesis experiments, they should consult before naming their new alleles to avoid giving the same designation to different alleles. Also recommended is the convention of referring to a new mutation of a given phenotype by a provisional designation as bt*-lab number until it is ascertained whether the mutant is a new allele of a known gene or identifies a previously unidentified gene. In the first instance, the proper gene symbol (bt1 or sh2) replaces bt*, but the lab number is retained (e.g., bt1-8711). In the second instance (a previously unidentified locus), a new gene name and symbol would be selected, and this mutant would become the reference allele (-R or -1).
When mutant alleles are referred to in the generic sense without specification of their origin, a hyphen without further designation (e.g., bz1-, dek12-) is desirable to make it clear that one is referring to an allele or alleles, not the gene locus.
5.2. DESIGNATION OF NONMUTANT ALLELES: Since it is now apparent that in a species as polymorphic as maize, nonmutant alleles from different sources are apt to have a number of sequence differences one from the other, and these differences can be reflected in gene action (nonmutant isoalleles), it is desirable to specify the nonmutant allele being investigated or used as a control. Incorporating the name of the inbred as part of the allelic designation, Bz1-W22, is an appropriate method of doing this. However, mutant alleles should not be designated by the inbred in which they arose (e.g., bz1-W22) to avoid confusion with the progenitor allele. Also, there may eventually be numerous mutant alleles of a particular gene isolated in that inbred if a researcher uses that inbred in a mutagenesis experiment. A particular nonmutant allele may be found in an exotic race or other accession that is not an inbred. A unique designator (e.g., a PI number or Bolivia #) should be part of the allelic designation.
5.3. RFLPs AND RAPDs AS ALLELES: The presence or absence of a restriction site or a primer-amplifiable sequence at a particular locus represent Mendelian alternatives. They fall under the broadest definition of an allele, and it is appropriate to refer to these alternatives as alleles as has already been done in some reports.
6. NAMING DELETIONS: When it is clear that a mutation results from a deletion that has removed all or part of two gene loci, it would be appropriate to indicate this in the following manner. For an1-6923, this would be Papell Chiffon Pump Black Flirt Women's Adrianna def(an1..bz2)-6923, and for sh-bz-X2, def(bz1..sh1)-X2. When molecular evidence indicates that a deletion has removed all of the structural portion of a gene as is true of wx1-C34, it should be indicated in the same manner; i.e., def(wx1)-C34.
7. MUTATIONS RESULTING FROM TRANSPOSABLE ELEMENT INSERTIONS: There is one further point concerning allelic specification. Maize in particular has many mutable alleles resulting from the insertion of a transposable element. These have been designated by the mutant symbol, a hyphen, a lower case "m", and an isolation number; e.g., wx-m1. When the transposable element insertion [Papell Flirt Adrianna Women's Pump Black Chiffon Ac, Ds, Spm(En), dSpm(I), Mu1..MuX, etc.] is known, it is suggested that this be indicated by a double colon following the allele as wx-m1::Ds1. Since a maize stock may have more than one transposable element family active at the same time, firm genetic and/or molecular evidence is necessary to ascribe mutability to a particular transposable element family. Further, mutable alleles generate both stable nonmutant and stable mutant alleles when the transposable element excises from the gene locus. Since the mutant derivatives are certain to differ in sequence from the nonmutant progenitor allele around the site of the transposable element insertion and the nonmutant derivatives are very likely to differ at that site, researchers should be certain to indicate the origin of such alleles in their reports. One means of doing this is to indicate such an origin by an apostrophe following the locus symbol as Bz1'-7801Women’s 4 Spike Sweep Advanced Metal 9 Low Softball Shoe White Mizuno Cleat dqwXad or bz1'-8905. The specifics of its origin including the transposable element involved could then be included in the text and entered in the Maize Genome Data Base. Since transpositions of a transposable element from a site within a gene often insert in locations where they have no phenotypic effect but can be useful markers, it is desirable to have a standard to refer to such insertions. Designate them as RFLP's would be designated (see Section 8), but follow the institutional symbol and number with a double colon and the symbol of the transposable element (e.g., dnap2094::Ac).
8. NAMING RFLPs AND RAPDS: In naming RFLPs and RAPDs, use a lower case three or four letter code designating the originating university or company followed by a laboratory number (no space between the code and the number). When the probe used is a cDNA or a subclone of a gene, the gene symbol should be added in parentheses after the RFLP locus designation, as umc000(a1). Since a probe not infrequently recognizes RFLPs on two or more chromosomes, these should be designated by the same institutional code, number, and probe followed immediately by A, or B, or C. In so far as possible, the locus with the strongest hybridization should be designated A and the more weakly hybridizing loci be designated B, C etc. in descending order of signal strength.
9. CHROMOSOME REARRANGEMENTS: The conventions for dealing with chromosomal rearrangements are well established and adequate for the purpose. To designate particular reciprocal translocations as T1-2a or T1-9(4995) etc. with the breakpoints noted parenthetically or in a table of supporting information is explicit and sufficient. Additional information (the fact that the translocation stock is homozygous for wx1) can be incorporated by prefacing the translocation number with the gene symbol as the Co-op does in its stock lists (e.g., wx1 T1-9c). Translocations with B chromosomes have designations that indicate the arm of the A chromosome involved (L or S) as well as a lower case letter distinguishing that translocation from any others involving that particular chromosome arm, as TB-5Sc. The cytological breakpoint in the A chromosome as well as the loci uncovered when the TB translocation is used as a male parent can be noted in the text or in a table of supplementary information. The designations for inversions (e.g., Inv9b again with the breakpoints, 9S.05-L.87, listed in a supporting table) are succinct and convey the necessary information.
10. ORGANELLAR GENES: For chloroplast and mitochondrial genes, we accept for the present the proposals already in place. For chloroplast genes, this is Hallick and Bottomley, 1983. Plant Mol. Biol. Rep. 1(4): 38-43, as updated at SwissProt or by the Chloroplast working group for the Commission on Plant Gene Nomenclature. For mitochondrial genes, this is Lonsdale and Leaver, 1988. Ibid. 6(2):14-21, updated by the Mitochondrion working group for the Commission on Plant Gene Nomenclature. For brevity's sake, these are not summarized here.
11. TRANSCRIPTION FACTORS: (Oct 2006 addition) We define here TFs as proteins that contain a DNA-binding domain and that fall within one of the families described in http://arabidopsis.med.ohio-state.edu/AtTFDB/.
There is currently no coherent effort in maize for a rational and organized naming of transcription factors (TFs). The use of GenBank accession numbers, EST names or locus identifiers provides an impractical mechanism, which often leads to ambiguities, for example because of multiple entries in GenBank or of several ESTs for the same protein. Thus, we propose here to create a uniform nomenclature for maize TFs, following the lead from Arabidopsis. A similar proposal is being adopted by the TIGR rice annotation group and by the SUCEST-FUN sugarcane annotation group.
Gene products - Each transcription factor will have an organism identifier (Zm) to be used only in the context of other organisms, followed by letters that represent the TF family (e.g., MYB, bHLH, HD, bZIP) and by a number that will start with '1'. A similar strategy is currently being applied to other maize gene families (e.g., the kinesins, see Mayliss Slip BLACK Black On Timberland JET Jet SUwxFCqUnO). Since we realize that many TFs are known by their genetic names, this nomenclature will permit the use of synonyms. For example, KNOTTED could be named HD1(KN) (or ZmHD1(KN) when being compared to HDs of other species) and C1 would be MYB1(C1) (or ZmMYB1(C1)). In addition, whenever possible, we will try to have the numbers provide a historic perspective of which TFs have been first identified. In that regard, since KN and C1 correspond to the founding members of their respective families in maize, they are assigned the number '1'. Prior genetic nomenclature will be incorporated in the database.
Genes - Existing names for genes encoding TFs will not be altered. If necessary, and only as a way to provide coherence with the naming of the gene products, the synonym strategy described above would be used. In that regard, c1 would continue to be c1 but could also be cross-referenced as c1(myb1). New genes will be named according to their products. If mutant phenotypes are identified at a later date, gene names derived from mutant phenotypes will be added as synonyms, but the original name will not be changed. As indicated for the gene products, the use of the prefix Zm in front of the gene's name will only be used when comparing maize genes with related genes from other species (e.g., Zm myb1).
Note that for generating a position for transcription factors, Erich Grotewold served on the Nomenclature Committee in an ad hoc capacity.
12. GENE MODEL IDENTIFIERS: MaizeGDB, the Maize Genetics COOP Stock Center, Gramene, and the Maize Nomenclature Committee recognize the need to formulate a method for naming assemblies and structural annotations (gene models) across the subspecies such that the nomenclature would do the following:
Assembly names will consist of 4 parts: the species identifier, a specific cultivar descriptor, the assembly quality, a project-specific identifier, and version number (e.g. "Zm-B73-REFERENCE-GRAMENE-4.0" for "Zea mays B73 cultivar of reference quality from the Gramene project; version 4.0").
Black Papell Chiffon Adrianna Women's Pump Flirt Assembly version codes create a short unique identifier for assembly versions. It consists of 2 parts: the assembly code and an alphabetic version code (e.g. 00001d - Zm-B73-REFERENCE-GRAMENE-4.0).
Gene models will consist of 3 parts: the species ID, the assembly version code, and a random six digit number (e.g. Zm00001d459384; Zea Mays, Zm-B73-REFERENCE-GRAMENE-4.0, gene model 459384).
The new nomenclature will be applied to B73 RefGen_v4 Zm-B73-REFERENCE-GRAMENE-4.0) and all assemblies released after June 2015. For B73, previous identifiers (e.g. GRMZM and ZEAMMB73) are retained as associated gene models and can be searched.
To download a full description of the assembly/gene model nomenclature click here.
Current Members Include:
Size King's Floor for Appliques Plus Tulle Light Wedding Back Bridesmaid Love Lace Length Straps Spaghetti Corset Purple Dress Prom 7qzR7r (Chair)
Charles (Chunguang) Du
CLEARING HOUSE FOR NOMENCLATURE: We also believe that it is desirable to initiate a clearing house for maize nomenclature so that a researcher wishing to name a recently identified gene can ascertain almost immediately that no one has used the proposed designation and symbol. This clearing house can, in principle, function through the MaizeGDB website, which will be refereed by a cooperator. The same facility could be used to insure that allelic designations are not duplicated or to answer questions concerning nomenclature.
Submitted Sep 10, 1996 by the Nomenclature Subcommittee.
Pump Women's Papell Black Chiffon Flirt Adrianna APPENDIX:Probe ACRONYMS IN USE
May 2000 Updated:
agr Agrigenetics asg Asgrow Seed ast Academica Sinica, Taiwan bcd barley cDNA, Cornell University bnl Brookhaven National Laboratory bnlg Brookhaven National Laboratory, SSR probes cdo oat leaf cDNA, Cornell University crc Carlsberg Research Center csh Cold Spring Harbor csic Centro de Investigacion y Desarrollo, Barcelona csu California State University, Hayward cuny City University of New York dnap DNA Plant Technologie Corp dup Dupont fco Colorado State U. Fort Collins fmi Friedrich Miescher-Institut gii Genetics Institute Inc. ias Iowa State University iger Institute of Grassland and Environmental Research inra Institut National de al Recherche Agronomique isc Ist Sper Cereal isu Iowa State University klp Universitat Hohenheim, Stuttgart koln University of Koln ksu Kansas State University lim Limagrain mmc Maize Microsatellite Consortium (UK) mmp Missouri Maize Project mpik Max-Planck-Institute, Koln mps Mycogen Plant Sciences nc North Carolina ncr North Carolina Raleigh ncsu North Carolina State University niu Northern Illinois University npi Native Plants Incorporated op Operon Technologies osu Ohio State University pbs Purdue Biological Sciences pge Plant Gene Expression Center pgs Plant Genetic Systems phi Pioneer Hi-Bred International (SSR) php Pioneer Hi-Bred International pic Plant Industry Canberra psu Penn State University rg rice genomic, Cornell University rgp Rice Genome Program, Japan rny Rockefeller University rpa Rhone Poulenc rz rice cDNA, Cornell University sb Sorghum biocolor scri Scottish Crop Research Insitute std Stanford University tda Tripsacum dactyloides tjp University of Tokyo, Japan ttu Texas Tech University tum Technische Universitat Munchen uat University of Arizona - Tucson uaz University of Arizona ucb University of California - Berkley ucd Univeristy of Califormia - Davis ucla University of California - Los Angeles ucr University of California - Riverside ucsd University of California - San Diego ufg University of Florida - Gainesville uiu University of Illinois - Urbana ukd University of Copenhagen uky University of Kentucky umc University of Missouri - Columbia umn University of Minnesota umsl University of Missouri - St. Louis uob University of Barcelona uom Univeristy of Manitoba uor University of Oregon uox University of Oxford usu Utah State University uwo University of Western Ontario uzh University of Zurich wsu Washington State University wusl Washington University, St. Louis ynh Yale University