Please input one-sentence summary here.

==Annotated Information==
===Function===
Cellulose is the major component in wood, which is present universally in plant cell walls and provides mechanical strength to the plant. Cellulose accounts for about 20 % and 50 % of the primary and secondary cell walls in higher plants, respectively. Membrane-bound cellulose synthase enzyme complexes (CelS) are believed to play a key role in the biosynthesis of cellulose. These complexes are discernible as hexameric rosettes under freeze-fracture electron microscopy and consist of 36 cellulose synthase (CesA) proteins per rosette.The ''AtCesA7'' gene encodes a essential subunit which is required for the correct assembly of the enzyme responsible for cellulose synthesis. Cellulose is a homogenous polymer of β-1,4-glucan synthesized from UDP-Glc. Plant ''CesA'' (cellulose synthase catalytic subunit) genes were first isolated by random sequencing of cotton (''Gossypium hirsutum'') expressed sequence tags . Based on mutant analyses, characterization of six CesA genes of Arabidopsis has been reported. But cellulose biogenesis is a complex process, which still requires ongoing study to comprehend completely its pathways and mechanisms. Even with the completion of the Arabidopsis thaliana genome sequencing project, researchers still struggle to understand the biogenesis of cellulose in ''A.thaliana''，let alone other plants that are less well studied.

===Expression===
OsCesA7 cDNA,including 9 exons, encoding a 1063 amino acid composition of cellulose synthase catalytic subunit. OsCesA7 contains a UDP - Glc motif,QxxRW motif,P - CR conservative domain,VR1 and VR2 variable region,the RING finger motif. The ''rsw1'' mutation in ''AtCesA1'' causes a reduction of cellulose synthesis, when grown at the nonpermissive temperature, resulting in disassembly of the rosette complexes,widespread morphological abnormalities, and the accumulation of noncrystalline β-1,4-glucan. The ''irx3'' mutant of ''AtCesA7'' shows a reduction of cellulose content in the stem and a defect in the secondary cell wall formation in xylem that causes collapse of xylem elements. These results indicate that ''AtCesA1'' and ''AtCesA7'' contribute to cellulose syntheses in the properly developed primary and secondary cell wall,respectively.

Based on the sequences shown in Figure 3, phylogenetic relationships of ''CesA'' genes from higher plants were examined (Fig. 4). Three rice ''CesA'' genes were considered to function to synthesize cellulose in the secondary cell walls responsible for the overall strength of the plant, judging from the brittle culm phenotype (Fig. 1) exhibited by their respective mutants (Fig. 2).

The phylogenetic relationships between the three rice CesA genes and all of the Arabidopsis genes indicated that OsCesA9, OsCesA4, and OsCesA7 are the functional analogues for ''AtCesA7'', ''AtCesA8'', and ''AtCesA4'', respectively. This result strongly suggests that these three rice CESA proteins, like the three Arabidopsis CESA proteins, make a complex essential for cellulose synthesis in secondary cell wall. Two cotton ''CesA'' genes (GhCesA1 and -3) that are considered to be members of secondary wall-forming genes belong to the same group including OsCesA4 and AtCesA8. In maize, only eight complete amino acid sequences have been determined, and no ''CesA'' genes analogous to the three rice/Arabidopsis genes have been isolated, probably due to low abundance of the cDNAs.

===Evolution===
This article analyze the cellulose synthase gene family of rice by using the DNAStar and MEGA software, The results show that cellulose synthase gene family is formed by the cellulose synthase family which is make up of eleven members and the cellulose synthase-like family which including thirty-four members, By Protein sequence alignment and phylogenetic analysis,we know that the family of CesA can divided into three groups .the member CesA7 can be seen as the transition of the group one and group two ,The family of Csl can be divided into six groups, This results laiding a foundation on origin, evolution and function research of ccellulose synthase gene family.

==Labs working on this gene==
In 2000, Richmond and Somerville identified 10 CesA genes and 31 cellulose synthases-like (Csl) genes in Arabidopsis, which were further classified into one CesA family and six Csl families (CslA/B/C/D/E/G) based on phylogenetic analyses . Since then, the whole CesA and Csl gene repertoire has been cataloged in fully sequenced plants, including rice , poplar and the moss ''Physcomitrella patens'' . Additional CesA and Csl genes have also been found in diverse and not fully sequenced land plants such as maize , barley and pine; CesAs have been identified in streptophyte green algae such as ''Mesotaenium caldariorum'' and in red alga ''Porphyra yezoensis'' as well. Two additional Csl families (CslF and CslH) were found in these studies; together with the other six Csl families and one CesA family, they comprise the CesA superfamily.

The phylogenetic classification and the function of the CesA superfamily were reviewed by Lerouxel ''et al.'' in 2006 , and since then there have been a few updates in terms of the phylogenetic analyses of these important genes. Fincher ''et al''. have found a new Csl family (CslJ) in cereals . Roberts and Bushoven have mined the ''P. pattens'' genomic and EST data and found CesA, CslA, CslC and CslD genes in this lower plant; their phylogenetic analyses revealed that seven P. patens CesA genes form a monophyletic clade by themselves and there are no one-to-one orthologs in the moss corresponding to the Arabidopsis CesA triplet subunits (CesA1/3/6 for the primary cell wall and CesA4/7/8 for the secondary cell wall). Furthermore, comprehensive phylogenetic analyses of the plant CesA superfamily by including CesAs from other organismal groups (e.g., bacteria, fungi and animals) indicated that plant CslA and CslC genes have a different origin than the remaining plant genes . Evidences have been reported that these remaining genes of the CesA superfamily were anciently acquired from cyanobacteria. It was proposed that the plant CslG genes evolved first, followed by the CslE, CslB, CesA and CslD/F genes. However, a more recent study could not find homologs of the CslG/E/B/H/F genes in ''P. patens'', suggesting that these Csl families are narrowly distributed and unlikely to be the earliest evolved.

To date 17 plant and algal genomes have been fully or nearly fully sequenced, and their gene prediction and annotation are publicly available. The availability of these genomes and their annotated genes facilitates comparative genomic studies of plants, making it possible to address major plant biology questions in ''silico''. Yanbin Yin ''et al.'' have performed comparative analyses of the CesA superfamily genes in the 17 sequenced plant and algal genomes. They defined CesA and Csl gene homologs across these genomes investigated the evolution of different Csl gene families，build a catalog of all the Csl genes and classified them phylogenetically. The gene structure, the evolutionary rate, and the distribution of the Csl families across different genomes are also studied.

==References==
Please input cited references here.

==Structured Information==
{{JaponicaGene|
GeneName = Os10g0467800|
Description = Similar to Cellulose synthase (Fragment)|
Version = NM_001071346.1 GI:115482435 GeneID:4348853|
Length = 4512 bp|
Definition = Oryza sativa Japonica Group Os10g0467800, complete gene.|
Source = Oryza sativa Japonica Group

ORGANISM Oryza sativa Japonica Group
Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;
Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP
clade; Ehrhartoideae; Oryzeae; Oryza.
|
Chromosome = [[:category:Japonica Chromosome 10|Chromosome 10]]|
AP = Chromosome 10:17719262..17723773|
CDS = 17719294..17719507,17719609..17719736,17719852..17719921,17720009..17720165,17720266..17720878 ,17721309..17721785,17721863..17722456,17722536..17722886,17722985..17723572 |
GCID = <gbrowseImage1>
name=NC_008403:17719262..17723773
source=RiceChromosome10
preset=GeneLocation
</gbrowseImage1>|
GSID = <gbrowseImage2>
name=NC_008403:17719262..17723773
source=RiceChromosome10
preset=GeneLocation
</gbrowseImage2>|
CDNA = <cdnaseq>atggacaccgcctccgtcaccggtggcgagcacaaggggaaggagaagacgtgccgggtgtgcggcgaggaggtggcggcgagggaggacgggaagccgttcgtggcgtgcgccgagtgcggcttcccggtgtgcaagccctgctacgagtacgagcgcagcgagggcacccagtgctgcccccagtgcaacacccgctacaagcgccacaaagggtgcccacgggtggaaggcgacgaggacgacggcggcgacatggacgacttcgaggaggagttccagatcaagagccccaccaagcagaaacccccccacgagcccgtcaacttcgacgtctactcggagaacggcgagcagccggcacagaagtggcgccctggaggcccggcgctctcttccttcaccggaagcgtggctgggaaggatctggagcaggagagggagatggagggtggcatggagtggaaggacaggatcgacaagtggaagacgaagcaggagaagcggggcaagctcaaccgcgacgacagcgacgacgacgacgacaagaacgacgacgagtacatgctgctcgcggaggcgaggcagccgctgtggaggaaggtgccgatcccgtcgagcaagatcaacccgtaccggatcgtgatcgtgctccggctggtggtgctctgcttcttcctcaagttccggatcacgacgccggcgatggacgcggtgccgctgtggctggcctcggtgatctgcgagctgtggttcgcgctgtcgtggatcctcgaccagctgcccaagtggtcgccggtgacgagggagacgtacctggaccggctggccctccggtacgagcgcgacggcgagccgtgccgcctggccccgatcgatttcttcgtcagcacggtggacccgctcaaggagccgcccatcatcaccgccaacaccgtgctgtccatcctcgccgtcgactaccccgtcgaccgcgtctcctgctacgtctccgacgacggcgcgtccatgctgctcttcgacacgctctccgagaccgccgagttcgcccgccggtgggtccccttctgcaagaagttcaccatcgagccccgcgcccccgagttctacttctcccagaagatcgactacctcaaggacaaggtccagcccaccttcgtcaaagaacgccgcgccatgaagagagagtatgaggagttcaaggtgaggataaacgcgctggtggcgaaggcgcagaagaagccggaggaagggtgggtgatgcaggacgggacgccatggccggggaacaacacgagggaccacccggggatgatccaggtgtacctgggcagccagggcgcgctcgacgtcgagggcagcgagctgccgcggctggtgtacgtgtcccgcgagaagcggcccggctacaaccaccacaagaaggccggcgccatgaactccctcgttcgcgtctccgccgtgcttaccaacgcccccttcatcctcaacctcgactgcgaccactacgtcaacaacagcaaggccgtccgcgaggccatgtgcttcctcatggacaagcagctcggcaagaagctgtgctacgtccagttcccccagcgcttcgacggcatcgaccgccacgatcgctacgccaaccgcaacaccgtcttcttcgacatcaacatgaaggggctggacgggatacaggggccggtgtacgtggggacggggacggtgttcaacaggcaggcgctgtacggatacgacccgccgcggccggagaagaggccgaagatgacgtgcgactgctggccgtcgtggtgctgctgctgctgctgcttcggcggggggaagcgcggcaagtcgcacaagaacaagaagggcggcggcggcggcgagggcggcggcctcgacgagccgcgccgcgggctgctcgggttctacaagaagaggagcaagaaggacaagctcggcggcggcgcggcgtcgctcgccggagggaagaaagggtaccggaagcaccagcgcgggttcgagctggaggagatcgaggagggcctcgaggggtacgacgagctggagcgctcgtcgctcatgtcgcagaagagcttcgagaagcggttcggccagtcgccggtgttcatcgcctccaccctcgtcgaggacggcggcctcccccagggcgccgccgccgaccccgccgccctcatcaaggaggccatccacgtcatcagctgcggctacgaggagaagaccgagtggggcaaggagattgggtggatctacgggtcggtgacggaggacatcttaacggggttcaagatgcattgccgtgggtggaagtcggtgtactgcacgccggcgagggcggcattcaaggggtcggcgcccatcaacctgtcggatcgtctgcaccaggtgctccggtgggcgctcggctccgtcgagatcttcatgagccgccattgcccgctctggtacgcctatggcggccgcctcaagtggctcgagcgcttcgcctacaccaacaccatcgtctaccccttcacctccattcccctcctcgcctactgcaccatccccgccgtctgcctcctcaccggcaagttcatcatccccacgcttaacaatttggcgagcatatggttcatagcgcttttcctgtcgatcatcgcgacgggggtgctggagctgcggtggagcggggtgagcatcgaggactggtggaggaacgagcagttctgggtgatcggcggcgtgtcggcgcacctgttcgccgtgttccagggcctcctcaaggtgctcggcggcgtggacaccaacttcacggtgacgtccaaggccgccgccgacgagaccgacgcgttcggcgagctctacctgttcaagtggacgacgctgctggtgccgccgacgacgctgatcatcatcaacatggtggggatcgtcgccggcgtgtcggacgccgtgaacaacgggtacgggtcgtggggcccgctgttcgggaagctcttcttctccttctgggtcatcctccacctctaccccttcctcaaggggctcatggggaggcagaaccggacgcccaccattgtcgtgctctggtccatcctcctcgcctccatcttctccctcgtctgggtcaggatcgaccccttcatccccaagcccaagggccccgtcctcaagccatgcggggtctcgtgctga</cdnaseq>|
AA = <aaseq>MDTASVTGGEHKGKEKTCRVCGEEVAAREDGKPFVACAECGFPV CKPCYEYERSEGTQCCPQCNTRYKRHKGCPRVEGDEDDGGDMDDFEEEFQIKSPTKQK PPHEPVNFDVYSENGEQPAQKWRPGGPALSSFTGSVAGKDLEQEREMEGGMEWKDRID KWKTKQEKRGKLNRDDSDDDDDKNDDEYMLLAEARQPLWRKVPIPSSKINPYRIVIVL RLVVLCFFLKFRITTPAMDAVPLWLASVICELWFALSWILDQLPKWSPVTRETYLDRL ALRYERDGEPCRLAPIDFFVSTVDPLKEPPIITANTVLSILAVDYPVDRVSCYVSDDG ASMLLFDTLSETAEFARRWVPFCKKFTIEPRAPEFYFSQKIDYLKDKVQPTFVKERRA MKREYEEFKVRINALVAKAQKKPEEGWVMQDGTPWPGNNTRDHPGMIQVYLGSQGALD VEGSELPRLVYVSREKRPGYNHHKKAGAMNSLVRVSAVLTNAPFILNLDCDHYVNNSK AVREAMCFLMDKQLGKKLCYVQFPQRFDGIDRHDRYANRNTVFFDINMKGLDGIQGPV YVGTGTVFNRQALYGYDPPRPEKRPKMTCDCWPSWCCCCCCFGGGKRGKSHKNKKGGG GGEGGGLDEPRRGLLGFYKKRSKKDKLGGGAASLAGGKKGYRKHQRGFELEEIEEGLE GYDELERSSLMSQKSFEKRFGQSPVFIASTLVEDGGLPQGAAADPAALIKEAIHVISC GYEEKTEWGKEIGWIYGSVTEDILTGFKMHCRGWKSVYCTPARAAFKGSAPINLSDRL HQVLRWALGSVEIFMSRHCPLWYAYGGRLKWLERFAYTNTIVYPFTSIPLLAYCTIPA VCLLTGKFIIPTLNNLASIWFIALFLSIIATGVLELRWSGVSIEDWWRNEQFWVIGGV SAHLFAVFQGLLKVLGGVDTNFTVTSKAAADETDAFGELYLFKWTTLLVPPTTLIIIN MVGIVAGVSDAVNNGYGSWGPLFGKLFFSFWVILHLYPFLKGLMGRQNRTPTIVVLWS ILLASIFSLVWVRIDPFIPKPKGPVLKPCGVSC</aaseq>|
DNA = <dnaseqindica>33..246#348..475#591..660#748..904#1005..1617#2048..2524#2602..3195#3275..3625#3724..4311#gcccaccaacgtcgcttccccggcacctcaccatggacaccgcctccgtcaccggtggcgagcacaaggggaaggagaagacgtgccgggtgtgcggcgaggaggtggcggcgagggaggacgggaagccgttcgtggcgtgcgccgagtgcggcttcccggtgtgcaagccctgctacgagtacgagcgcagcgagggcacccagtgctgcccccagtgcaacacccgctacaagcgccacaaaggtaacatcatgtgttgtgtccatgtgatcaatcgcaatttagttcacaagatcgagcttgacaagaatgtctgtctgtctgtctcgatcgatcggtcgcagggtgcccacgggtggaaggcgacgaggacgacggcggcgacatggacgacttcgaggaggagttccagatcaagagccccaccaagcagaaacccccccacgagcccgtcaacttcgacgtctactcggtgagagctcaactcgactcgatcgatccatcgccattgatttctcactgcaattgctctgcaatcaagtgcttgtaaactgatgcgaaacctgtatacaacctttgtcttgcaggagaacggcgagcagccggcacagaagtggcgccctggaggcccggcgctctcttccttcaccggaagcggtcggtactcaaatcccgcaagaaattgcgtttcttggtgtaacaattcatctgaagatgtgtgtgtggattgctgtgaaattgcagtggctgggaaggatctggagcaggagagggagatggagggtggcatggagtggaaggacaggatcgacaagtggaagacgaagcaggagaagcggggcaagctcaaccgcgacgacagcgacgacgacgacgacaagaacgacgacgagtacatgctgtaagcttagctctccaaagatctatctatcgatcgacctcagatttttcaaatcttgtgaactttggcatgatcgtgatgatcgaatttctgcatgcaggctcgcggaggcgaggcagccgctgtggaggaaggtgccgatcccgtcgagcaagatcaacccgtaccggatcgtgatcgtgctccggctggtggtgctctgcttcttcctcaagttccggatcacgacgccggcgatggacgcggtgccgctgtggctggcctcggtgatctgcgagctgtggttcgcgctgtcgtggatcctcgaccagctgcccaagtggtcgccggtgacgagggagacgtacctggaccggctggccctccggtacgagcgcgacggcgagccgtgccgcctggccccgatcgatttcttcgtcagcacggtggacccgctcaaggagccgcccatcatcaccgccaacaccgtgctgtccatcctcgccgtcgactaccccgtcgaccgcgtctcctgctacgtctccgacgacggcgcgtccatgctgctcttcgacacgctctccgagaccgccgagttcgcccgccggtgggtccccttctgcaagaagttcaccatcgagccccgcgcccccgagttctacttctcccagaagatcgactacctcaaggacaaggtccagcccaccttcgtcaaagaacgccgcgccatgaaggtaaaccttctccactccatctgcgggttgagtgtcgtggatataccggattcaagggtttaatatattgttttaggcatttgtgttggggggaccgatatagccggttatttcgatccaaaattattttattttattttgaaaaaaaatgattaaaatttgaataaatattatcaaattcacaaaaatttgaaaaacatttaaaagtttcgtccgaaataatatcatatcaggttgtccaatagaactgaaatgtcaaaaattatgttatgtaattttgaaccctcattcaattggagcatctcgtgatcagtctgtttttggagatgtaggctatggctaaacttcgttaccgatatatcccttctcgatgttgtcatccagtttagatcgtctataagttttttaacacctactcttgatgtgacagagagagtatgaggagttcaaggtgaggataaacgcgctggtggcgaaggcgcagaagaagccggaggaagggtgggtgatgcaggacgggacgccatggccggggaacaacacgagggaccacccggggatgatccaggtgtacctgggcagccagggcgcgctcgacgtcgagggcagcgagctgccgcggctggtgtacgtgtcccgcgagaagcggcccggctacaaccaccacaagaaggccggcgccatgaactccctcgttcgcgtctccgccgtgcttaccaacgcccccttcatcctcaacctcgactgcgaccactacgtcaacaacagcaaggccgtccgcgaggccatgtgcttcctcatggacaagcagctcggcaagaagctgtgctacgtccagttcccccagcgcttcgacggcatcgaccgccacgatcgctacgccaaccgcaacaccgtcttcttcgacgtgagcactgccttcttctccggcgtgcgtgcgtcgcgccgtgacgtgagctaacgatggtgtcgtttgatgtgcagatcaacatgaaggggctggacgggatacaggggccggtgtacgtggggacggggacggtgttcaacaggcaggcgctgtacggatacgacccgccgcggccggagaagaggccgaagatgacgtgcgactgctggccgtcgtggtgctgctgctgctgctgcttcggcggggggaagcgcggcaagtcgcacaagaacaagaagggcggcggcggcggcgagggcggcggcctcgacgagccgcgccgcgggctgctcgggttctacaagaagaggagcaagaaggacaagctcggcggcggcgcggcgtcgctcgccggagggaagaaagggtaccggaagcaccagcgcgggttcgagctggaggagatcgaggagggcctcgaggggtacgacgagctggagcgctcgtcgctcatgtcgcagaagagcttcgagaagcggttcggccagtcgccggtgttcatcgcctccaccctcgtcgaggacggcggcctcccccagggcgccgccgccgaccccgccgccctcatcaaggaggccatccacgtcatcagctgcggctacgaggagaagaccgagtggggcaaggaggtaatccatcaaaaaatctccaccattttcaagctcgaggaagatgatcgaagctaaccaaaaatcaaaattcttgcagattgggtggatctacgggtcggtgacggaggacatcttaacggggttcaagatgcattgccgtgggtggaagtcggtgtactgcacgccggcgagggcggcattcaaggggtcggcgcccatcaacctgtcggatcgtctgcaccaggtgctccggtgggcgctcggctccgtcgagatcttcatgagccgccattgcccgctctggtacgcctatggcggccgcctcaagtggctcgagcgcttcgcctacaccaacaccatcgtctaccccttcacctccattcccctcctcgcctactgcaccatccccgccgtctgcctcctcaccggcaagttcatcatccccacggtaaagaaccaaccaagaacatcaaaatttccgctaaaatttcaagctccaaatgatcttgcactgaccgatcgatcgcgatcttggtgtacgtgtagcttaacaatttggcgagcatatggttcatagcgcttttcctgtcgatcatcgcgacgggggtgctggagctgcggtggagcggggtgagcatcgaggactggtggaggaacgagcagttctgggtgatcggcggcgtgtcggcgcacctgttcgccgtgttccagggcctcctcaaggtgctcggcggcgtggacaccaacttcacggtgacgtccaaggccgccgccgacgagaccgacgcgttcggcgagctctacctgttcaagtggacgacgctgctggtgccgccgacgacgctgatcatcatcaacatggtggggatcgtcgccggcgtgtcggacgccgtgaacaacgggtacgggtcgtggggcccgctgttcgggaagctcttcttctccttctgggtcatcctccacctctaccccttcctcaaggggctcatggggaggcagaaccggacgcccaccattgtcgtgctctggtccatcctcctcgcctccatcttctccctcgtctgggtcaggatcgaccccttcatccccaagcccaagggccccgtcctcaagccatgcggggtctcgtgctgagctgctgctgctacttctctgtgtctctgcattttgcaagagggatgaccggatggatgattcttgttgtatggagtattttgacttgttcatgtacaagtttttgtgagtgggataaaagtgttttgggggtaaaatttgtaagaactgaggtggagattatactcgaatttaagaacaattgtttttgaattttctttt</dnaseqindica>|
Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001071346.1 RefSeq:Os10g0467800]|
}}
[[Category:Genes]]
[[Category:Japonica mRNA]]
[[Category:Oryza Sativa Japonica Group]]
[[Category:Japonica Genes]]
[[Category:Japonica Chromosome 10]]
[[Category:Chromosome 10]]

Os10g0467800

2014-06-03T09:24:23Z

2014-06-03T08:54:23Z

Wenqian: /* Function */ The gene encodes a essential subunit which is required for the correct assembly of the enzyme responsible for cellulose synthesis.