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CAAT box

March 17, 2024

In molecular biology, a CCAAT box (also sometimes abbreviated a CAAT box or CAT box) is a distinct pattern of nucleotides with GGCCAATCT consensus sequence that occur upstream by 60–100 bases to the initial transcription site. The CAAT box signals the binding site for the RNA transcription factor, and is typically accompanied by a conserved consensus sequence. It is an invariant DNA sequence at about minus 70 base pairs from the origin of transcription in many eukaryotic promoters. Genes that have this element seem to require it for the gene to be transcribed in sufficient quantities. It is frequently absent from genes that encode proteins used in virtually all cells. This box along with the GC box is known for binding general transcription factors. Both of these consensus sequences belong to the regulatory promoter. Full gene expression occurs when transcription activator proteins bind to each module within the regulatory promoter. Protein specific binding is required for the CCAAT box activation. These proteins are known as CCAAT box binding proteins/CCAAT box binding factors.

The left model is of the complex of NF-YC/NF-YB with the CCAAT element from the pro- 2(I) collagen promoter. The DNA backbone is shown as ribbons (purple) with the bases displayed. The two possible locations of the CCAAT box, according to the modeling, have been colored cyan. For the right model of the NF-Y/CCAAT complex. NF-YC, NF-YB and DNA are colored as in figure on the left, whereas NF-YA is colored blue. The two alternative positions for the linker connecting NF-YA1 and NF-YA2 sub-domains are shown as blue dotted lines. Secondary structure elements of the histone pair that are implicated in NF-YA1 and NF-YA2 recognition (see text) are labeled and colored in red and gray, respectively. For clarity, only the bases for the CCAAT pentanucleotide are shown and labeled.[1]

A CCAAT box is a feature frequently found before eukaryote coding regions, but is not found in prokaryotes.[2]

Consensus sequence edit

In the direction of transcription of the template strand, the consensus sequence, or the calculated order of the most frequent residues, for the CAAT box was 3'-TG ATTGG (T/C)(T/C)(A/G)-5'. The use of parentheses denotes that either base is present, but it is not specified as to their relative frequencies. For example, "(T/C)" would mean that either thymine or cytosine are preferentially selected for.[3] Within metazoa (animal kingdom), the core binding factor (CBF)-DNA complex retains a high degree of conservation within the CCAAT binding motif, as well as the sequences flanking this pentameric motif. The CCAAT motif in plants (spinach was used in an experiment) differs slightly from metazoa in that it is actually a CAAT binding motif; the promoter lacks one of the two C residues from the pentameric motif, and the artificial addition of the second C has no significant effects on binding activity. Some sequences lack the CAAT-box completely. Secondly, the surrounding nucleotides in plants do not match the consensus sequence above determined by Bi et al.[4]

Core promoter edit

The CAAT box is what is known as a core promoter, also known as the basal promoter or simply the promoter, is a region of DNA that initiates transcription of a particular gene. This region, in particular for the CAAT box, is located about 60–100 bases upstream (towards the 5' end), however no less than 27 base pairs away, from the initial transcription site or a eukaryote gene in which a complex of general transcription factors bind with RNA polymerase II prior to the initiation of transcription.[5][6] It is essential to the transcription that these core binding factors (also referred to as nuclear factor Y or NF-Y) are able to bind to the CCAAT motif. Experiments in many laboratories have shown that mutations to the CCAAT motif that cause a loss of CBF binding also decreases transcriptional activity in these promoters, suggesting that CBF-CCAAT complexes are essential for optimum transcriptional activity.[3]

Binding edit

In an experiment done with core binding factors (CBF) and DNA complexes, researchers were able to determine the preferential sequences of the promoter in a region over and immediately adjacent to the CAAT box, and two regions on either side of the CAAT box. By using PCR-mediated random binding selection process, researchers were able to show that the sequence "3' - (T/C)G ATTGG (T/C)(T/C)(A/G) - 5'" immediately flanking the ATTGG region (CCAAT in the complementary strand) was preferentially selected on the coding strand (opposite of the template strand).[3][7][8] This was shown using an oligonucleotide sequence (R1) which contained 27 random nucleotides, flanked by a defined 20 nucleotide sequence on each side. While no single nucleotide was selected in every clone on either side of the ATTGG motif (CCAAT in the complementary strand), there were several nucleotides in positions selected with high frequency. Most notably from the sequence above was the G residue towards the 5' end of the ATTGG. The other residues also listed were notable, but there is a split between two residues. This same experiment also yielded the same sequence as shown above when using a different oligonucleotide (R2) that contained an ATTGG core and flanked by 12 5' random nucleotides and 10 3' random nucleotides. Both these sequences are very similar and confirmed in multiple experiments. For sequences that flanked the ATTGG motif with two adenine residues (AA) on its 5' end and G(A/G) on its 3' end, seems to have inhibited formation of the CBF-DNA complex and subsequently occurred in only 1% of the promoter sequences.[3] In another experiment performed with the major late promoter (MLP) of adenoviruses from a variety of host species, it was shown that the mutation of the CAAT box and CCAAT sequence, which is thought to play a pivotal role in the (MLP) of subgroup C human adenoviruses, in species with a deficient CAAT sequence. The transcription initiation at mutant MLP species was significantly reduced compared with that of the wild type or species in which there was a CAAT mutant. The failure to restore the normally functional adenoviruses, exhibited by a CAAT box, is consistent with the idea that the CAAT box plays a vital role in the adenovirus MLP and is preferred over other transcriptional elements.[9]

CCAAT in plants edit

These core binding factors, or nuclear factors (NF-Y), are composed of three subunits – NF-YA, NF-YB, and NF-YC. Whereas in animals each NF-Y subunit is encoded by a single gene, there has been a diversification in plants in both structure and function. Families of NF-Y consist of between eight and 39 members per subunit. A large reason for this diversification is because of gene duplications and tandem duplications, which have helped contribute to the larger family sizes of NF-Y compared to the single encoded animal nuclear factors.[10] Each subunit contains an evolutionarily conserved part – the C-terminal of NF-YA, the central part of NF-YB, and the N-terminal of NF-YC, greater than 70% of these across species remains conserved. Neighboring regions however are generally not conserved.[6]

NF-YA subunit edit

The NF-YA family encodes transcription factors that are variable in length (between 207 and 347 amino acids for M. truncatula). The NF-YA proteins are generally characterized by two domains that are strongly conserved in all higher eukaryotes investigated to date. The first domain (A1) contains 20 amino acids that forms an alpha helix that appears significant in its interactions with NF-YB and NF-YC. The second domain (A2) is adjacent to the A1 domain by a conserved linker sequence is a sequence of 21 amino acids vital in the specific DNA to CCAAT box binding. The A1 and A2 domains are conserved towards the C-terminus of mammals, but occupy a more central region in plant NF-YA subunits. In plants, the NF-YA subunit has evolved to regulate the development of a facultative root organ only present in leguminous plants and shown to be expressed in root tissue. It was shown to have drought-resistant-like properties, becoming upregulated during drought stress in the roots and leaves of Arabidopsis. NF-YA mutants have shown a loss of function and a hypersensitivity to drought-like conditions, and, in contrast, overexpression of NF-YA has resulted in drought resistance.[10]

NF-YB subunit edit

The NF-YB family is, similar to the NF-YA subunit, variable in length, however, on average much smaller than the NF-YA subunit (90–240 amino acids in "M. truncatula"). They have been characterized with a structure and amino acid composition similar to the histone fold motif (HFM). This is composed of three alpha-helices separated by two beta strand-loop domains. Similar to NF-YA, NF-YB has been shown to also improve drought resistance when overexpressed and also the promotion of flowering in Arabidopsis.[10]

NF-YC subunit edit

The NF-YC proteins are an intermediate size between that of NF-YA and NF-YB proteins (117–292 amino acids in M. truncatula) and also contain the HFM that is prevalent in NF-YB proteins. It has also been shown to be involved in flowering time in certain plants (overexpression leads to earlier flowering) where its influence is potentially regulated by the binding of the protein CONSTANS (CO) to the NF-YC subunit.[10]

NF-Y complexes edit

Because of the evolutionary change in NF-Y encoding genes in plants, they subsequently have a large range of potential trimeric complexes. For example, in Arabidopsis, 36 NF-Y transcription factor subunits (including 10 NF-YA, 13 NF-YB, and 13 NF-YC subunits) have been identified and which could theoretically form 1690 unique complexes (which contains one of each type of subunit). This number, of course is higher than what actually happens since some subunits have specific binding patterns. Functional analyses on NF-Y encoding genes in plants have shown, as a result of their evolutionary diversification relative to their animal counterparts, have acquired diverse specific functions, such as embryo development, flowering time control, ER-stress, drought stress, and nodule and root development. This may only be a small portion of their capabilities, since the number of theoretically combinations of NF-Y complexes is so large and only a small portion can actually be created (less than 10% of all possible interactions were confirmed in both directions in yeast).[10]

CCAAT enhancer binding proteins (C/EBPs) edit

Another aspect of the CCAAT binding motif is the CCAAT/enhancer binding proteins (C/EBPs). They are a group of transcription factors of 6 members (α-ζ), which are highly conserved and bind to the CCAAT motif. While research on these binding proteins is relatively recent, their function has been shown to have vital roles in cellular proliferation and differentiation, metabolism, inflammation, and immunity in various cells, but specifically hepatocytes, adipocytes, and hematopoietic cells.[11] For example, in adipocytes, this has been shown in a variety of experiments with mice: ectopic expression of these C/EBPs (C/EBPα and C/EBPβ) were able to initiate the differentiation programs of the cell, even in the absence of adipogenic hormones, or the differentiation of preadipocytes to adipocytes (or fat cells). In addition, an overabundance of these C/EBPs (specifically, C/EBPδ) causes an accelerated response. And furthermore, in cells lacking C/EBP or in C/EBP-deficient mice, both are unable to undergo adipogenesis. This results in the mice dying from hypoglycemia, or the reduced lipid accumulation in adipose tissue.[12] The C/EBPs follow a general basic-leucine zipper (bZIP) domain at the C-terminus and are able to form dimers with other C/EBPs or other transcription factors. This dimerization allows the C/EBPs to bind specifically to DNA through a palindromic sequence in the major groove of DNA. They are regulated through various means, including hormones, mitogens, cytokines, nutrients, and other various factors.[11]

See also edit

References edit

  1. ^ Romier, Christophe; Cocchiarella, Fabienne; Mantovani, Roberto; Moras, Dino (24 October 2002). "The NF-YB/NF-YC Structure Gives Insight into DNA Binding and Transcription Regulation by CCAAT Factor NF-Y". The Journal of Biological Chemistry. 278 (2): 1336–1345. doi:10.1074/jbc.M209635200. PMID 12401788.
  2. ^ Stedman, Thomas Lathrop (6 December 2005). Stedman's Medical Dictionary, Volume 1 (28th ed.). Lippincott Williams & Wilkins. ISBN 9780781733908.
  3. ^ a b c d Bi, Weimin; Wu, Ling; Coustry, Francoise; Crombrugghe, Benoit de; Maity, Sankar N. (17 October 1997). "DNA Binding Specificity of the CCAAT-binding Factor CBF/NF-Y". The Journal of Biological Chemistry. 272 (42): 26562–26572. doi:10.1074/jbc.272.42.26562.
  4. ^ Kusnetsov, Victor; Landsberger, Martin; Meurer, Jorg; Oelmuller, Ralf (10 December 1999). "The Assembly of the CAAT-box Binding Complex at a Photosynthesis Gene Promoter Is Regulated by Light, Cytokinin, and the Stage of the Plastids". The Journal of Biological Chemistry. 274 (50): 36009–36014. doi:10.1074/jbc.274.50.36009.
  5. ^ Cammack, Richard; Atwood, Teresa; Campbell, Peter; Parish, Howard; Smith, Anthony; Vella, Frank; Stirling, John (2006). Oxford Dictionary of Biochemistry and Molecular Biology (2 ed.). Oxford University Press. doi:10.1093/acref/9780198529170.001.0001. ISBN 9780198529170.
  6. ^ a b Mantovani, Roberto (18 October 1999). "The molecular biology of the CCAAT-binding factor NF-Y". Gene. 239 (1): 15–27. doi:10.1016/S0378-1119(99)00368-6. PMID 10571030.
  7. ^ Mantovani, Roberto (1998). "A survey of 178 NF-Y binding CCAAT boxes". Nucleic Acids Research. 26 (5): 1135–1143. doi:10.1093/nar/26.5.1135. PMC 147377. PMID 9469818.
  8. ^ Dolfini, Diletta; Zambelli, Federico; Pavesi, Giulio; Mantovani, Roberto (15 December 2009). "A perspective of promoter architecture from the CCAAT box". Cell Cycle. 8 (24): 4127–4137. doi:10.4161/cc.8.24.10240. PMID 19946211.
  9. ^ Song, Byeongwoon; Young, C. S. H. (April 1998). "Functional Analysis of the CAAT Box in the Major Late Promoter of the Subgroup C Human Adenoviruses". Journal of Virology. 72 (4): 3213–3220. PMC 109786. PMID 9525647.
  10. ^ a b c d e Laloum, Tom; De Mita, Stephane; Gamas, Pascal; Baudin, Mael; Niebel, Andreas (March 2013). "CCAAT-box binding transcription factors in plants: Y so many?". Trends in Plant Science. 18 (3): 157–166. doi:10.1016/j.tplants.2012.07.004. PMID 22939172.
  11. ^ a b Ramji, Dpiak P.; Foka, Pelagia (10 May 2002). "Review Article: CCAAT/enhancer-binding proteins: structure, function and regulation". Biochemical Journal. 365 (Pt 3): 561–575. doi:10.1042/BJ20020508. PMC 1222736. PMID 12006103.
  12. ^ Tanaka, T; Yoshida, N; Kishimoto, T; Akira, S (15 December 1997). "Defective adipocyte differentiation in mice lacking the C/EBPbeta and/or C/EBPdelta gene". The EMBO Journal. 16 (24): 7432–7443. doi:10.1093/emboj/16.24.7432. PMC 1170343. PMID 9405372.

March 17, 2024
caat, molecular, biology, also, sometimes, abbreviated, distinct, pattern, nucleotides, with, ggccaatct, consensus, sequence, that, occur, upstream, bases, initial, transcription, site, signals, binding, site, transcription, factor, typically, accompanied, con. In molecular biology a CCAAT box also sometimes abbreviated a CAAT box or CAT box is a distinct pattern of nucleotides with GGCCAATCT consensus sequence that occur upstream by 60 100 bases to the initial transcription site The CAAT box signals the binding site for the RNA transcription factor and is typically accompanied by a conserved consensus sequence It is an invariant DNA sequence at about minus 70 base pairs from the origin of transcription in many eukaryotic promoters Genes that have this element seem to require it for the gene to be transcribed in sufficient quantities It is frequently absent from genes that encode proteins used in virtually all cells This box along with the GC box is known for binding general transcription factors Both of these consensus sequences belong to the regulatory promoter Full gene expression occurs when transcription activator proteins bind to each module within the regulatory promoter Protein specific binding is required for the CCAAT box activation These proteins are known as CCAAT box binding proteins CCAAT box binding factors The left model is of the complex of NF YC NF YB with the CCAAT element from the pro 2 I collagen promoter The DNA backbone is shown as ribbons purple with the bases displayed The two possible locations of the CCAAT box according to the modeling have been colored cyan For the right model of the NF Y CCAAT complex NF YC NF YB and DNA are colored as in figure on the left whereas NF YA is colored blue The two alternative positions for the linker connecting NF YA1 and NF YA2 sub domains are shown as blue dotted lines Secondary structure elements of the histone pair that are implicated in NF YA1 and NF YA2 recognition see text are labeled and colored in red and gray respectively For clarity only the bases for the CCAAT pentanucleotide are shown and labeled 1 A CCAAT box is a feature frequently found before eukaryote coding regions but is not found in prokaryotes 2 Contents 1 Consensus sequence 2 Core promoter 3 Binding 4 CCAAT in plants 4 1 NF YA subunit 4 2 NF YB subunit 4 3 NF YC subunit 4 4 NF Y complexes 5 CCAAT enhancer binding proteins C EBPs 6 See also 7 ReferencesConsensus sequence editIn the direction of transcription of the template strand the consensus sequence or the calculated order of the most frequent residues for the CAAT box was 3 TG ATTGG T C T C A G 5 The use of parentheses denotes that either base is present but it is not specified as to their relative frequencies For example T C would mean that either thymine or cytosine are preferentially selected for 3 Within metazoa animal kingdom the core binding factor CBF DNA complex retains a high degree of conservation within the CCAAT binding motif as well as the sequences flanking this pentameric motif The CCAAT motif in plants spinach was used in an experiment differs slightly from metazoa in that it is actually a CAAT binding motif the promoter lacks one of the two C residues from the pentameric motif and the artificial addition of the second C has no significant effects on binding activity Some sequences lack the CAAT box completely Secondly the surrounding nucleotides in plants do not match the consensus sequence above determined by Bi et al 4 Core promoter editThe CAAT box is what is known as a core promoter also known as the basal promoter or simply the promoter is a region of DNA that initiates transcription of a particular gene This region in particular for the CAAT box is located about 60 100 bases upstream towards the 5 end however no less than 27 base pairs away from the initial transcription site or a eukaryote gene in which a complex of general transcription factors bind with RNA polymerase II prior to the initiation of transcription 5 6 It is essential to the transcription that these core binding factors also referred to as nuclear factor Y or NF Y are able to bind to the CCAAT motif Experiments in many laboratories have shown that mutations to the CCAAT motif that cause a loss of CBF binding also decreases transcriptional activity in these promoters suggesting that CBF CCAAT complexes are essential for optimum transcriptional activity 3 Binding editIn an experiment done with core binding factors CBF and DNA complexes researchers were able to determine the preferential sequences of the promoter in a region over and immediately adjacent to the CAAT box and two regions on either side of the CAAT box By using PCR mediated random binding selection process researchers were able to show that the sequence 3 T C G ATTGG T C T C A G 5 immediately flanking the ATTGG region CCAAT in the complementary strand was preferentially selected on the coding strand opposite of the template strand 3 7 8 This was shown using an oligonucleotide sequence R1 which contained 27 random nucleotides flanked by a defined 20 nucleotide sequence on each side While no single nucleotide was selected in every clone on either side of the ATTGG motif CCAAT in the complementary strand there were several nucleotides in positions selected with high frequency Most notably from the sequence above was the G residue towards the 5 end of the ATTGG The other residues also listed were notable but there is a split between two residues This same experiment also yielded the same sequence as shown above when using a different oligonucleotide R2 that contained an ATTGG core and flanked by 12 5 random nucleotides and 10 3 random nucleotides Both these sequences are very similar and confirmed in multiple experiments For sequences that flanked the ATTGG motif with two adenine residues AA on its 5 end and G A G on its 3 end seems to have inhibited formation of the CBF DNA complex and subsequently occurred in only 1 of the promoter sequences 3 In another experiment performed with the major late promoter MLP of adenoviruses from a variety of host species it was shown that the mutation of the CAAT box and CCAAT sequence which is thought to play a pivotal role in the MLP of subgroup C human adenoviruses in species with a deficient CAAT sequence The transcription initiation at mutant MLP species was significantly reduced compared with that of the wild type or species in which there was a CAAT mutant The failure to restore the normally functional adenoviruses exhibited by a CAAT box is consistent with the idea that the CAAT box plays a vital role in the adenovirus MLP and is preferred over other transcriptional elements 9 CCAAT in plants editThese core binding factors or nuclear factors NF Y are composed of three subunits NF YA NF YB and NF YC Whereas in animals each NF Y subunit is encoded by a single gene there has been a diversification in plants in both structure and function Families of NF Y consist of between eight and 39 members per subunit A large reason for this diversification is because of gene duplications and tandem duplications which have helped contribute to the larger family sizes of NF Y compared to the single encoded animal nuclear factors 10 Each subunit contains an evolutionarily conserved part the C terminal of NF YA the central part of NF YB and the N terminal of NF YC greater than 70 of these across species remains conserved Neighboring regions however are generally not conserved 6 NF YA subunit edit The NF YA family encodes transcription factors that are variable in length between 207 and 347 amino acids for M truncatula The NF YA proteins are generally characterized by two domains that are strongly conserved in all higher eukaryotes investigated to date The first domain A1 contains 20 amino acids that forms an alpha helix that appears significant in its interactions with NF YB and NF YC The second domain A2 is adjacent to the A1 domain by a conserved linker sequence is a sequence of 21 amino acids vital in the specific DNA to CCAAT box binding The A1 and A2 domains are conserved towards the C terminus of mammals but occupy a more central region in plant NF YA subunits In plants the NF YA subunit has evolved to regulate the development of a facultative root organ only present in leguminous plants and shown to be expressed in root tissue It was shown to have drought resistant like properties becoming upregulated during drought stress in the roots and leaves of Arabidopsis NF YA mutants have shown a loss of function and a hypersensitivity to drought like conditions and in contrast overexpression of NF YA has resulted in drought resistance 10 NF YB subunit edit The NF YB family is similar to the NF YA subunit variable in length however on average much smaller than the NF YA subunit 90 240 amino acids in M truncatula They have been characterized with a structure and amino acid composition similar to the histone fold motif HFM This is composed of three alpha helices separated by two beta strand loop domains Similar to NF YA NF YB has been shown to also improve drought resistance when overexpressed and also the promotion of flowering in Arabidopsis 10 NF YC subunit edit The NF YC proteins are an intermediate size between that of NF YA and NF YB proteins 117 292 amino acids in M truncatula and also contain the HFM that is prevalent in NF YB proteins It has also been shown to be involved in flowering time in certain plants overexpression leads to earlier flowering where its influence is potentially regulated by the binding of the protein CONSTANS CO to the NF YC subunit 10 NF Y complexes edit Because of the evolutionary change in NF Y encoding genes in plants they subsequently have a large range of potential trimeric complexes For example in Arabidopsis 36 NF Y transcription factor subunits including 10 NF YA 13 NF YB and 13 NF YC subunits have been identified and which could theoretically form 1690 unique complexes which contains one of each type of subunit This number of course is higher than what actually happens since some subunits have specific binding patterns Functional analyses on NF Y encoding genes in plants have shown as a result of their evolutionary diversification relative to their animal counterparts have acquired diverse specific functions such as embryo development flowering time control ER stress drought stress and nodule and root development This may only be a small portion of their capabilities since the number of theoretically combinations of NF Y complexes is so large and only a small portion can actually be created less than 10 of all possible interactions were confirmed in both directions in yeast 10 CCAAT enhancer binding proteins C EBPs editAnother aspect of the CCAAT binding motif is the CCAAT enhancer binding proteins C EBPs They are a group of transcription factors of 6 members a z which are highly conserved and bind to the CCAAT motif While research on these binding proteins is relatively recent their function has been shown to have vital roles in cellular proliferation and differentiation metabolism inflammation and immunity in various cells but specifically hepatocytes adipocytes and hematopoietic cells 11 For example in adipocytes this has been shown in a variety of experiments with mice ectopic expression of these C EBPs C EBPa and C EBPb were able to initiate the differentiation programs of the cell even in the absence of adipogenic hormones or the differentiation of preadipocytes to adipocytes or fat cells In addition an overabundance of these C EBPs specifically C EBPd causes an accelerated response And furthermore in cells lacking C EBP or in C EBP deficient mice both are unable to undergo adipogenesis This results in the mice dying from hypoglycemia or the reduced lipid accumulation in adipose tissue 12 The C EBPs follow a general basic leucine zipper bZIP domain at the C terminus and are able to form dimers with other C EBPs or other transcription factors This dimerization allows the C EBPs to bind specifically to DNA through a palindromic sequence in the major groove of DNA They are regulated through various means including hormones mitogens cytokines nutrients and other various factors 11 See also editPromoterReferences edit Romier Christophe Cocchiarella Fabienne Mantovani Roberto Moras Dino 24 October 2002 The NF YB NF YC Structure Gives Insight into DNA Binding and Transcription Regulation by CCAAT Factor NF Y The Journal of Biological Chemistry 278 2 1336 1345 doi 10 1074 jbc M209635200 PMID 12401788 Stedman Thomas Lathrop 6 December 2005 Stedman s Medical Dictionary Volume 1 28th ed Lippincott Williams amp Wilkins ISBN 9780781733908 a b c d Bi Weimin Wu Ling Coustry Francoise Crombrugghe Benoit de Maity Sankar N 17 October 1997 DNA Binding Specificity of the CCAAT binding Factor CBF NF Y The Journal of Biological Chemistry 272 42 26562 26572 doi 10 1074 jbc 272 42 26562 Kusnetsov Victor Landsberger Martin Meurer Jorg Oelmuller Ralf 10 December 1999 The Assembly of the CAAT box Binding Complex at a Photosynthesis Gene Promoter Is Regulated by Light Cytokinin and the Stage of the Plastids The Journal of Biological Chemistry 274 50 36009 36014 doi 10 1074 jbc 274 50 36009 Cammack Richard Atwood Teresa Campbell Peter Parish Howard Smith Anthony Vella Frank Stirling John 2006 Oxford Dictionary of Biochemistry and Molecular Biology 2 ed Oxford University Press doi 10 1093 acref 9780198529170 001 0001 ISBN 9780198529170 a b Mantovani Roberto 18 October 1999 The molecular biology of the CCAAT binding factor NF Y Gene 239 1 15 27 doi 10 1016 S0378 1119 99 00368 6 PMID 10571030 Mantovani Roberto 1998 A survey of 178 NF Y binding CCAAT boxes Nucleic Acids Research 26 5 1135 1143 doi 10 1093 nar 26 5 1135 PMC 147377 PMID 9469818 Dolfini Diletta Zambelli Federico Pavesi Giulio Mantovani Roberto 15 December 2009 A perspective of promoter architecture from the CCAAT box Cell Cycle 8 24 4127 4137 doi 10 4161 cc 8 24 10240 PMID 19946211 Song Byeongwoon Young C S H April 1998 Functional Analysis of the CAAT Box in the Major Late Promoter of the Subgroup C Human Adenoviruses Journal of Virology 72 4 3213 3220 PMC 109786 PMID 9525647 a b c d e Laloum Tom De Mita Stephane Gamas Pascal Baudin Mael Niebel Andreas March 2013 CCAAT box binding transcription factors in plants Y so many Trends in Plant Science 18 3 157 166 doi 10 1016 j tplants 2012 07 004 PMID 22939172 a b Ramji Dpiak P Foka Pelagia 10 May 2002 Review Article CCAAT enhancer binding proteins structure function and regulation Biochemical Journal 365 Pt 3 561 575 doi 10 1042 BJ20020508 PMC 1222736 PMID 12006103 Tanaka T Yoshida N Kishimoto T Akira S 15 December 1997 Defective adipocyte differentiation in mice lacking the C EBPbeta and or C EBPdelta gene The EMBO Journal 16 24 7432 7443 doi 10 1093 emboj 16 24 7432 PMC 1170343 PMID 9405372 Retrieved from https en wikipedia org w index php title CAAT box amp oldid 1200961399, wikipedia, wiki, book, books, library,

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