Rabbit Anti-Collagen I antibody_Primary Antibody_Antibody_SUNLONG BIOTECH CO., LTD-杭州圣隆生物科技有限公司

Rabbit Anti-Collagen I antibody

Collagen type I; Alpha 1 type I collagen; Alpha 2 type I collagen; COL1A1; COL1A2; Collagen I alpha 1 polypeptide; Collagen I alpha 2 polypeptide; Collagen Of Skin Tendon And Bone; Collagen Type 1; Collagen type I alpha 1; Collagen type I alpha 2; OI4; Os

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NO.:SL0578R

Clonality:Polyclonal

Immunogen Species:Rabbit

React Species:Human,Mouse,Rat,Dog,Rabbit,(predicted: Cow,Horse,Sheep,Monkey,)

Applications:WB ELISA IHC-P IHC-F IF

concentration:1mg/ml
Goods click count：81
Product Spec: 50ul50ulPlus$244.00 100ul100ulPlus$418.00
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Product Name Collagen I

Chinese Name I型Collagen protein抗体

Alias Collagen type I; Alpha 1 type I collagen; Alpha 2 type I collagen; COL1A1; COL1A2; Collagen I alpha 1 polypeptide; Collagen I alpha 2 polypeptide; Collagen Of Skin Tendon And Bone; Collagen Type 1; Collagen type I alpha 1; Collagen type I alpha 2; OI4; Osteogenesis Imperfecta Type IV; Pro alpha 1(I) collagen; Type I procollagen; CO1A1_HUMAN; Collagen alpha-1(II) chain; Alpha-1 type II collagen; Collagen alpha-1(II) chain; Chondrocalcin; collagen alpha-1(I) chain preproprotein; Collagen Ⅰ.  Collagen protein1; 1型Collagen protein; I型胶原;

literatures
Specific References  (127)     |     SL0578R has been referenced in 127 publications.

[IF=18.808] Jincheng Tang. et al. Flexible Osteogenic Glue as an All-In-One Solution to Assist Fracture Fixation and Healing. 2021 Jul 02  IHC ;  Rabbit.

PubMed:10.1002/adfm.202102465

[IF=14.593] Binbin He. et al. 3D printed biomimetic epithelium/stroma bilayer hydrogel implant for corneal regeneration. Bioact Mater. 2022 Jan;:  IF ;  Rabbit.

PubMed:10.1016/j.bioactmat.2022.01.034

[IF=11.061] Shuo Jia. et al. Digital light processing-bioprinted poly-NAGA-GelMA-based hydrogel lenticule for precise refractive errors correction. BIOFABRICATION. 2023 Apr;:  IF ;  Human.

PubMed:37019117

[IF=10.761] Zhifa Wang. et al. The combination of a 3D-Printed porous Ti–6Al–4V alloy scaffold and stem cell sheet technology for the construction of biomimetic engineered bone at an ectopic site. MATER TODAY BIO. 2022 Dec;16:100433  WB ;  Rabbit.

PubMed:36157052

[IF=10.633] Fanglin Wang. et al. Adipose-derived stem cells with miR-150-5p inhibition laden in hydroxyapatite/tricalcium phosphate ceramic powders promote osteogenesis via regulating Notch3 and activating FAK/ERK and RhoA. ACTA BIOMATER. 2022 Oct;:  WB, IHC ;  Human.

PubMed:36206975

[IF=10.319] Dan Li. et al. A HAase/NIR responsive surface on titanium implants for treating bacterial infection and improving osseointegration. J MATER SCI TECHNOL. 2022 Nov;:  IF ;  Rat.

PubMed:10.1016/j.jmst.2022.09.029

[IF=10.317] Maolin Zhang. et al. Recapitulation of cartilage/bone formation using iPSCs via biomimetic 3D rotary culture approach for developmental engineering. Biomaterials. 2020 Nov;260:120334  IHC ;  Rat.

PubMed:32862124

[IF=9.933] Qi Feng. et al. Dynamic nanocomposite microgel assembly with microporosity, injectability, tissue-adhesion and sustained drug release promotes articular cartilage repair and regeneration. 2021 Dec 07  IHC ;  Mouse.

PubMed:34874119

[IF=9.417] Bangbang Liang. et al. Proportion-dependent osteogenic activity of electrospun nano-hydroxyapatite/polylactic acid fiber membrane in vitro and in vivo. MATER DESIGN. 2022 Jul;219:110834  WB ;  Rat.

PubMed:10.1016/j.matdes.2022.110834

[IF=9.078] Tzu-Hsiang Lin. et al. A bilineage thermosensitive hydrogel system for stimulation of mesenchymal stem cell differentiation and enhancement of osteochondral regeneration. Compos Part B-Eng. 2022 Jan;:109614  ICC ;  Rabbit.

PubMed:10.1016/j.compositesb.2022.109614

[IF=9.078] Lin Zou. et al. Icariin-releasing 3D printed scaffold for bone regeneration. Compos Part B-Eng. 2022 Mar;232:109625  IHC ;  Rat.

PubMed:10.1016/j.compositesb.2022.109625

[IF=8.724] Jin Leng. et al. Enzymatically-degradable hydrogel coatings on titanium for bacterial infection inhibition and enhanced soft tissue compatibility via a self-adaptive strategy. Bioact Mater. 2021 Dec;6:4670  ELISA ;  Mouse.

PubMed:34095624

[IF=8.568] Hanyue Li. et al. Indoleamine 2,3-dioxygenase mediates the therapeutic effects of adipose-derived stromal/stem cells in experimental periodontitis by modulating macrophages through the kynurenine-AhR-NRF2 pathway. MOL METAB. 2022 Oct;:101617  WB ;  Human.

PubMed:36270612

[IF=8.025] Xinxin Lan. et al. Xanthan gum/oil body-microgel emulsions with enhanced transdermal absorption for accelerating wound healing. INT J BIOL MACROMOL. 2022 Sep;:  IF, WB ;  Mouse.

PubMed:36126813

[IF=8.025] Kai-Chiang Yang. et al. Bioinspired collagen-gelatin-hyaluronic acid-chondroitin sulfate tetra-copolymer scaffold biomimicking native cartilage extracellular matrix facilitates chondrogenesis of human synovium-derived stem cells. INT J BIOL MACROMOL. 2023 Apr;:124400  IHC ;  Mouse.

PubMed:37044324

[IF=7.963] Meiqiong Wu. et al. Suppression of NADPH oxidase 4 inhibits PM2.5-induced cardiac fibrosis through ROS-P38 MAPK pathway. SCI TOTAL ENVIRON. 2022 Apr;:155558  WB ;  Rat,Mouse.

PubMed:35504386

[IF=7.7] Yang, Fan, et al. "Strontium enhances osteogenic differentiation of mesenchymal stem cells and in vivo bone formation by activating Wnt/catenin signaling." Stem Cells 29.6 (2011): 981-991.  Human, Rat.

PubMed:21563277

[IF=7.666] Meiling Chen. et al. MK-2206 Alleviates Renal Fibrosis by Suppressing the Akt/mTOR Signaling Pathway In Vivo and In Vitro. CELLS-BASEL. 2022 Jan;11(21):3505  WB ;  Human.

PubMed:36359901

[IF=7.571] Rui Zhang. et al. Multifunctional silicon calcium phosphate composite scaffolds promote stem cell recruitment and bone regeneration. J MATER CHEM B. 2022 Jun;:  IHC ;  Rat.

PubMed:35737023

[IF=7.31] Guangyue Li. et al. Irisin Promotes Osteogenesis by Modulating Oxidative Stress and Mitophagy through SIRT3 Signaling under Diabetic Conditions. OXID MED CELL LONGEV. 2022 Oct 10;2022:3319056  IHC ;  Rat.

PubMed:36262283

[IF=6.978] Yining Chen. et al. Two-Layered Biomimetic Flexible Self-Powered Electrical Stimulator for Promoting Wound Healing. BIOMACROMOLECULES. 2023;XXXX(XXX):XXX-XXX  WB ;  Rat.

PubMed:36802497

[IF=6.656] Changlin Du. et al. Hastatoside attenuates carbon tetrachloride-induced liver fibrosis by targeting glycogen synthase kinase-3β. PHYTOMEDICINE. 2022 Dec;:154585  WB ;  Mouse, Human.

PubMed:36610117

[IF=6.543] Liu Lulu. et al. Hydrogen Sulfide Attenuates Angiotensin II-Induced Cardiac Fibroblast Proliferation and Transverse Aortic Constriction-Induced Myocardial Fibrosis through Oxidative Stress Inhibition via Sirtuin 3. Oxid Med Cell Longev. 2021;2021:9925771  WB ;  rat.

PubMed:34603602

[IF=6.529] Han Ding. et al. JQ-1 ameliorates schistosomiasis liver fibrosis by suppressing JAK2 and STAT3 activation. Biomed Pharmacother. 2021 Dec;144:112281  IHC ;  Mouse.

PubMed:34624676

[IF=6.51] Woan-Ruoh Lee. et al. Laser-assisted nanoparticle delivery to promote skin absorption and penetration depth of retinoic acid with the aim for treating photoaging. INT J PHARMACEUT. 2022 Nov;627:122162  WB ;  Human.

PubMed:36122617

[IF=6.376] Cao Xu. et al. Receptor tyrosine kinase C-kit promotes a destructive phenotype of FLS in osteoarthritis via intracellular EMT signaling. MOL MED. 2023 Dec;29(1):1-13  WB ;  Rat.

PubMed:36959556

[IF=6.1] Hongwu Meng. et al. Inhibition of circular RNA ASPH reduces the proliferation and promotes the apoptosis of hepatic stellate cells in hepatic fibrosis. BIOCHEM PHARMACOL. 2023 Feb;:115451  IF,WB ;  Mouse,Human.

PubMed:36758707

[IF=5.878] Xiaohui Chen. et al. Eleutheroside B-loaded poly (lactic-co-glycolic acid) nanoparticles protect against renal fibrosis via Smad3-dependent mechanism. 2021 Sep 28  WB ;  human, mouse.

PubMed:34585457

[IF=5.834] Jie Shen. et al. LincRNA-ROR/miR-145/ZEB2 regulates liver fibrosis by modulating HERC5-mediated p53 ISGylation. FASEB J. 2023 May;37(6):e22936  WB ;  Mouse，Human.

PubMed:37144417

[IF=5.811] Xia H. et al. Evaluating Osteogenic Differentiation of Osteoblastic Precursors Upon Intermittent Administration of PTH/IGFBP7.. FRONT PHARMACOL. 2022 Apr;13:839035-839035  IHC ;  Mouse.

PubMed:35462909

Research Area Cell biology  immunology

Immunogen Species Rabbit

Clonality Polyclonal

React Species Human, Mouse, Rat, Dog, Rabbit, (predicted: Cow, Horse, Sheep, Monkey, )

Applications WB=1:500-2000 ELISA=1:5000-10000 IHC-P=1:100-500 IHC-F=1:100-500 IF=1:100-500 （Paraffin sections need antigen repair）
not yet tested in other applications.
optimal dilutions/concentrations should be determined by the end user.

Theoretical molecular weight 130kDa

Cellular localization Extracellular matrix Secretory protein

Form Liquid

Concentration 1mg/ml

immunogen KLH conjugated synthetic peptide derived from human Collagen I C-terminal propeptide: 1321-1400/1464

Lsotype IgG

Purification affinity purified by Protein A

Buffer Solution 0.01M TBS(pH7.4) with 1% BSA, 0.03% Proclin300 and 50% Glycerol.

Storage Shipped at 4℃. Store at -20 °C for one year. Avoid repeated freeze/thaw cycles.

Attention This product as supplied is intended for research use only, not for use in human, therapeutic or diagnostic applications.

PubMed PubMed

Product Detail This gene encodes the pro-alpha1 chains of type I collagen whose triple helix comprises two alpha1 chains and one alpha2 chain. Type I is a fibril-forming collagen found in most connective tissues and is abundant in bone, cornea, dermis and tendon. Mutations in this gene are associated with osteogenesis imperfecta types I-IV, Ehlers-Danlos syndrome type VIIA, Ehlers-Danlos syndrome Classical type, Caffey Disease and idiopathic osteoporosis. Reciprocal translocations between chromosomes 17 and 22, where this gene and the gene for platelet-derived growth factor beta are located, are associated with a particular type of skin tumor called dermatofibrosarcoma protuberans, resulting from unregulated expression of the growth factor. Two transcripts, resulting from the use of alternate polyadenylation signals, have been identified for this gene. [provided by R. Dalgleish, Feb 2008].

Function:
Type I collagen is a member of group I collagen (fibrillar forming collagen).

Subunit:
Trimers of one alpha 2(I) and two alpha 1(I) chains. Interacts with MRC2. Interacts with TRAM2.

Subcellular Location:
Secreted, extracellular space, extracellular matrix.

Tissue Specificity:
Forms the fibrils of tendon, ligaments and bones. In bones the fibrils are mineralized with calcium hydroxyapatite.

Post-translational modifications:
Proline residues at the third position of the tripeptide repeating unit (G-X-P) are hydroxylated in some or all of the chains. Proline residues at the second position of the tripeptide repeating unit (G-P-X) are hydroxylated in some of the chains.
O-linked glycan consists of a Glc-Gal disaccharide bound to the oxygen atom of a post-translationally added hydroxyl group.

DISEASE:
Defects in COL1A1 are the cause of Caffey disease (CAFFD) [MIM:114000]; also known as infantile cortical hyperostosis. Caffey disease is characterized by an infantile episode of massive subperiosteal new bone formation that typically involves the diaphyses of the long bones, mandible, and clavicles. The involved bones may also appear inflamed, with painful swelling and systemic fever often accompanying the illness. The bone changes usually begin before 5 months of age and resolve before 2 years of age.
Defects in COL1A1 are a cause of Ehlers-Danlos syndrome type 1 (EDS1) [MIM:130000]; also known as Ehlers-Danlos syndrome gravis. EDS is a connective tissue disorder characterized by hyperextensible skin, atrophic cutaneous scars due to tissue fragility and joint hyperlaxity. EDS1 is the severe form of classic Ehlers-Danlos syndrome.
Defects in COL1A1 are the cause of Ehlers-Danlos syndrome type 7A (EDS7A) [MIM:130060]; also known as autosomal dominant Ehlers-Danlos syndrome type VII. EDS is a connective tissue disorder characterized by hyperextensible skin, atrophic cutaneous scars due to tissue fragility and joint hyperlaxity. EDS7A is marked by bilateral congenital hip dislocation, hyperlaxity of the joints, and recurrent partial dislocations.
Defects in COL1A1 are a cause of osteogenesis imperfecta type 1 (OI1) [MIM:166200]. A dominantly inherited connective tissue disorder characterized by bone fragility and blue sclerae. Osteogenesis imperfecta type 1 is non-deforming with normal height or mild short stature, and no dentinogenesis imperfecta.
Defects in COL1A1 are a cause of osteogenesis imperfecta type 2 (OI2) [MIM:166210]; also known as osteogenesis imperfecta congenita. A connective tissue disorder characterized by bone fragility, with many perinatal fractures, severe bowing of long bones, undermineralization, and death in the perinatal period due to respiratory insufficiency.
Defects in COL1A1 are a cause of osteogenesis imperfecta type 3 (OI3) [MIM:259420]. A connective tissue disorder characterized by progressively deforming bones, very short stature, a triangular face, severe scoliosis, grayish sclera, and dentinogenesis imperfecta.
Defects in COL1A1 are a cause of osteogenesis imperfecta type 4 (OI4) [MIM:166220]; also known as osteogenesis imperfecta with normal sclerae. A connective tissue disorder characterized by moderately short stature, mild to moderate scoliosis, grayish or white sclera and dentinogenesis imperfecta.
Genetic variations in COL1A1 are a cause of susceptibility to osteoporosis (OSTEOP) [MIM:166710]; also known as involutional or senile osteoporosis or postmenopausal osteoporosis. Osteoporosis is characterized by reduced bone mass, disruption of bone microarchitecture without alteration in the composition of bone. Osteoporotic bones are more at risk of fracture.
Note=A chromosomal aberration involving COL1A1 is found in dermatofibrosarcoma protuberans. Translocation t(17;22)(q22;q13) with PDGF.

Similarity:
Belongs to the fibrillar collagen family.
Contains 1 fibrillar collagen NC1 domain.
Contains 1 VWFC domain.

SWISS:
P02452

Gene ID:
1277

Database links:
· Entrez Gene: 1277 Human

· Entrez Gene: 12842 Mouse

· Entrez Gene: 100008952 Rabbit

· Entrez Gene: 29393 Rat

· Omim: 120150 Human

· SwissProt: P02453 Cow

· SwissProt: O46392 Dog

· SwissProt: P02452 Human

· SwissProt: P11087 Mouse

· SwissProt: P02454 Rat

· Unigene: 172928 Human

· Unigene: 277735 Mouse

· Unigene: 107239 Rat

I型胶原是软骨基质中的一种结构蛋白。
主要用于Ⅰ型胶原分布及变态反应方面的研究。

Product Picture

Sample:
Lane 1: HepG2 (Human) Cell Lysate at 30 ug
Primary: Anti-Collagen I (SL0578R) at 1/1000 dilution
Secondary: IRDye800CW Goat Anti-Rabbit IgG at 1/20000 dilution
Predicted band size: 130,110 kD
Observed band size: 130 kD

Sample:
Lane 1: Placenta (Mouse) Lysate at 40 ug
Lane 2: U-2OS (Human) Cell Lysate at 30 ug
Primary: Anti-Collagen I (SL0578R) at 1/1000 dilution
Secondary: IRDye800CW Goat Anti-Rabbit IgG at 1/20000 dilution
Predicted band size: 130,110 kD
Observed band size: 130 kD

Tissue/cell: human lung carcinoma; 4% Paraformaldehyde-fixed and paraffin-embedded;
Antigen retrieval: citrate buffer ( 0.01M, pH 6.0 ), Boiling bathing for 15min; Block endogenous peroxidase by 3% Hydrogen peroxide for 30min; Blocking buffer (normal goat serum,C-0005) at 37℃ for 20 min;
Incubation: Anti-Collagen I Polyclonal Antibody, Unconjugated(SL0578R) 1:200, overnight at 4°C, followed by conjugation to the secondary antibody(SP-0023) and DAB(C-0010) staining

Tissue/cell: rat colon tissue; 4% Paraformaldehyde-fixed and paraffin-embedded;
Antigen retrieval: citrate buffer ( 0.01M, pH 6.0 ), Boiling bathing for 15min; Block endogenous peroxidase by 3% Hydrogen peroxide for 30min; Blocking buffer (normal goat serum,C-0005) at 37℃ for 20 min;
Incubation: Anti-Collagen I Polyclonal Antibody, Unconjugated(SL0578R) 1:200, overnight at 4°C, followed by conjugation to the secondary antibody(SP-0023) and DAB(C-0010) staining

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Product Name	Collagen I
Chinese Name	I型Collagen protein抗体
Alias	Collagen type I; Alpha 1 type I collagen; Alpha 2 type I collagen; COL1A1; COL1A2; Collagen I alpha 1 polypeptide; Collagen I alpha 2 polypeptide; Collagen Of Skin Tendon And Bone; Collagen Type 1; Collagen type I alpha 1; Collagen type I alpha 2; OI4; Osteogenesis Imperfecta Type IV; Pro alpha 1(I) collagen; Type I procollagen; CO1A1_HUMAN; Collagen alpha-1(II) chain; Alpha-1 type II collagen; Collagen alpha-1(II) chain; Chondrocalcin; collagen alpha-1(I) chain preproprotein; Collagen Ⅰ. Collagen protein1; 1型Collagen protein; I型胶原;
literatures	Specific References (127) \| SL0578R has been referenced in 127 publications. [IF=18.808] Jincheng Tang. et al. Flexible Osteogenic Glue as an All-In-One Solution to Assist Fracture Fixation and Healing. 2021 Jul 02 IHC ; Rabbit. PubMed:10.1002/adfm.202102465 [IF=14.593] Binbin He. et al. 3D printed biomimetic epithelium/stroma bilayer hydrogel implant for corneal regeneration. Bioact Mater. 2022 Jan;: IF ; Rabbit. PubMed:10.1016/j.bioactmat.2022.01.034 [IF=11.061] Shuo Jia. et al. Digital light processing-bioprinted poly-NAGA-GelMA-based hydrogel lenticule for precise refractive errors correction. BIOFABRICATION. 2023 Apr;: IF ; Human. PubMed:37019117 [IF=10.761] Zhifa Wang. et al. The combination of a 3D-Printed porous Ti–6Al–4V alloy scaffold and stem cell sheet technology for the construction of biomimetic engineered bone at an ectopic site. MATER TODAY BIO. 2022 Dec;16:100433 WB ; Rabbit. PubMed:36157052 [IF=10.633] Fanglin Wang. et al. Adipose-derived stem cells with miR-150-5p inhibition laden in hydroxyapatite/tricalcium phosphate ceramic powders promote osteogenesis via regulating Notch3 and activating FAK/ERK and RhoA. ACTA BIOMATER. 2022 Oct;: WB, IHC ; Human. PubMed:36206975 [IF=10.319] Dan Li. et al. A HAase/NIR responsive surface on titanium implants for treating bacterial infection and improving osseointegration. J MATER SCI TECHNOL. 2022 Nov;: IF ; Rat. PubMed:10.1016/j.jmst.2022.09.029 [IF=10.317] Maolin Zhang. et al. Recapitulation of cartilage/bone formation using iPSCs via biomimetic 3D rotary culture approach for developmental engineering. Biomaterials. 2020 Nov;260:120334 IHC ; Rat. PubMed:32862124 [IF=9.933] Qi Feng. et al. Dynamic nanocomposite microgel assembly with microporosity, injectability, tissue-adhesion and sustained drug release promotes articular cartilage repair and regeneration. 2021 Dec 07 IHC ; Mouse. PubMed:34874119 [IF=9.417] Bangbang Liang. et al. Proportion-dependent osteogenic activity of electrospun nano-hydroxyapatite/polylactic acid fiber membrane in vitro and in vivo. MATER DESIGN. 2022 Jul;219:110834 WB ; Rat. PubMed:10.1016/j.matdes.2022.110834 [IF=9.078] Tzu-Hsiang Lin. et al. A bilineage thermosensitive hydrogel system for stimulation of mesenchymal stem cell differentiation and enhancement of osteochondral regeneration. Compos Part B-Eng. 2022 Jan;:109614 ICC ; Rabbit. PubMed:10.1016/j.compositesb.2022.109614 [IF=9.078] Lin Zou. et al. Icariin-releasing 3D printed scaffold for bone regeneration. Compos Part B-Eng. 2022 Mar;232:109625 IHC ; Rat. PubMed:10.1016/j.compositesb.2022.109625 [IF=8.724] Jin Leng. et al. Enzymatically-degradable hydrogel coatings on titanium for bacterial infection inhibition and enhanced soft tissue compatibility via a self-adaptive strategy. Bioact Mater. 2021 Dec;6:4670 ELISA ; Mouse. PubMed:34095624 [IF=8.568] Hanyue Li. et al. Indoleamine 2,3-dioxygenase mediates the therapeutic effects of adipose-derived stromal/stem cells in experimental periodontitis by modulating macrophages through the kynurenine-AhR-NRF2 pathway. MOL METAB. 2022 Oct;:101617 WB ; Human. PubMed:36270612 [IF=8.025] Xinxin Lan. et al. Xanthan gum/oil body-microgel emulsions with enhanced transdermal absorption for accelerating wound healing. INT J BIOL MACROMOL. 2022 Sep;: IF, WB ; Mouse. PubMed:36126813 [IF=8.025] Kai-Chiang Yang. et al. Bioinspired collagen-gelatin-hyaluronic acid-chondroitin sulfate tetra-copolymer scaffold biomimicking native cartilage extracellular matrix facilitates chondrogenesis of human synovium-derived stem cells. INT J BIOL MACROMOL. 2023 Apr;:124400 IHC ; Mouse. PubMed:37044324 [IF=7.963] Meiqiong Wu. et al. Suppression of NADPH oxidase 4 inhibits PM2.5-induced cardiac fibrosis through ROS-P38 MAPK pathway. SCI TOTAL ENVIRON. 2022 Apr;:155558 WB ; Rat,Mouse. PubMed:35504386 [IF=7.7] Yang, Fan, et al. "Strontium enhances osteogenic differentiation of mesenchymal stem cells and in vivo bone formation by activating Wnt/catenin signaling." Stem Cells 29.6 (2011): 981-991. Human, Rat. PubMed:21563277 [IF=7.666] Meiling Chen. et al. MK-2206 Alleviates Renal Fibrosis by Suppressing the Akt/mTOR Signaling Pathway In Vivo and In Vitro. CELLS-BASEL. 2022 Jan;11(21):3505 WB ; Human. PubMed:36359901 [IF=7.571] Rui Zhang. et al. Multifunctional silicon calcium phosphate composite scaffolds promote stem cell recruitment and bone regeneration. J MATER CHEM B. 2022 Jun;: IHC ; Rat. PubMed:35737023 [IF=7.31] Guangyue Li. et al. Irisin Promotes Osteogenesis by Modulating Oxidative Stress and Mitophagy through SIRT3 Signaling under Diabetic Conditions. OXID MED CELL LONGEV. 2022 Oct 10;2022:3319056 IHC ; Rat. PubMed:36262283 [IF=6.978] Yining Chen. et al. Two-Layered Biomimetic Flexible Self-Powered Electrical Stimulator for Promoting Wound Healing. BIOMACROMOLECULES. 2023;XXXX(XXX):XXX-XXX WB ; Rat. PubMed:36802497 [IF=6.656] Changlin Du. et al. Hastatoside attenuates carbon tetrachloride-induced liver fibrosis by targeting glycogen synthase kinase-3β. PHYTOMEDICINE. 2022 Dec;:154585 WB ; Mouse, Human. PubMed:36610117 [IF=6.543] Liu Lulu. et al. Hydrogen Sulfide Attenuates Angiotensin II-Induced Cardiac Fibroblast Proliferation and Transverse Aortic Constriction-Induced Myocardial Fibrosis through Oxidative Stress Inhibition via Sirtuin 3. Oxid Med Cell Longev. 2021;2021:9925771 WB ; rat. PubMed:34603602 [IF=6.529] Han Ding. et al. JQ-1 ameliorates schistosomiasis liver fibrosis by suppressing JAK2 and STAT3 activation. Biomed Pharmacother. 2021 Dec;144:112281 IHC ; Mouse. PubMed:34624676 [IF=6.51] Woan-Ruoh Lee. et al. Laser-assisted nanoparticle delivery to promote skin absorption and penetration depth of retinoic acid with the aim for treating photoaging. INT J PHARMACEUT. 2022 Nov;627:122162 WB ; Human. PubMed:36122617 [IF=6.376] Cao Xu. et al. Receptor tyrosine kinase C-kit promotes a destructive phenotype of FLS in osteoarthritis via intracellular EMT signaling. MOL MED. 2023 Dec;29(1):1-13 WB ; Rat. PubMed:36959556 [IF=6.1] Hongwu Meng. et al. Inhibition of circular RNA ASPH reduces the proliferation and promotes the apoptosis of hepatic stellate cells in hepatic fibrosis. BIOCHEM PHARMACOL. 2023 Feb;:115451 IF,WB ; Mouse,Human. PubMed:36758707 [IF=5.878] Xiaohui Chen. et al. Eleutheroside B-loaded poly (lactic-co-glycolic acid) nanoparticles protect against renal fibrosis via Smad3-dependent mechanism. 2021 Sep 28 WB ; human, mouse. PubMed:34585457 [IF=5.834] Jie Shen. et al. LincRNA-ROR/miR-145/ZEB2 regulates liver fibrosis by modulating HERC5-mediated p53 ISGylation. FASEB J. 2023 May;37(6):e22936 WB ; Mouse，Human. PubMed:37144417 [IF=5.811] Xia H. et al. Evaluating Osteogenic Differentiation of Osteoblastic Precursors Upon Intermittent Administration of PTH/IGFBP7.. FRONT PHARMACOL. 2022 Apr;13:839035-839035 IHC ; Mouse. PubMed:35462909
Research Area	Cell biology immunology
Immunogen Species	Rabbit
Clonality	Polyclonal
React Species	Human, Mouse, Rat, Dog, Rabbit, (predicted: Cow, Horse, Sheep, Monkey, )
Applications	WB=1:500-2000 ELISA=1:5000-10000 IHC-P=1:100-500 IHC-F=1:100-500 IF=1:100-500 （Paraffin sections need antigen repair） not yet tested in other applications. optimal dilutions/concentrations should be determined by the end user.
Theoretical molecular weight	130kDa
Cellular localization	Extracellular matrix Secretory protein
Form	Liquid
Concentration	1mg/ml
immunogen	KLH conjugated synthetic peptide derived from human Collagen I C-terminal propeptide: 1321-1400/1464
Lsotype	IgG
Purification	affinity purified by Protein A
Buffer Solution	0.01M TBS(pH7.4) with 1% BSA, 0.03% Proclin300 and 50% Glycerol.
Storage	Shipped at 4℃. Store at -20 °C for one year. Avoid repeated freeze/thaw cycles.
Attention	This product as supplied is intended for research use only, not for use in human, therapeutic or diagnostic applications.
PubMed	PubMed
Product Detail	This gene encodes the pro-alpha1 chains of type I collagen whose triple helix comprises two alpha1 chains and one alpha2 chain. Type I is a fibril-forming collagen found in most connective tissues and is abundant in bone, cornea, dermis and tendon. Mutations in this gene are associated with osteogenesis imperfecta types I-IV, Ehlers-Danlos syndrome type VIIA, Ehlers-Danlos syndrome Classical type, Caffey Disease and idiopathic osteoporosis. Reciprocal translocations between chromosomes 17 and 22, where this gene and the gene for platelet-derived growth factor beta are located, are associated with a particular type of skin tumor called dermatofibrosarcoma protuberans, resulting from unregulated expression of the growth factor. Two transcripts, resulting from the use of alternate polyadenylation signals, have been identified for this gene. [provided by R. Dalgleish, Feb 2008]. Function: Type I collagen is a member of group I collagen (fibrillar forming collagen). Subunit: Trimers of one alpha 2(I) and two alpha 1(I) chains. Interacts with MRC2. Interacts with TRAM2. Subcellular Location: Secreted, extracellular space, extracellular matrix. Tissue Specificity: Forms the fibrils of tendon, ligaments and bones. In bones the fibrils are mineralized with calcium hydroxyapatite. Post-translational modifications: Proline residues at the third position of the tripeptide repeating unit (G-X-P) are hydroxylated in some or all of the chains. Proline residues at the second position of the tripeptide repeating unit (G-P-X) are hydroxylated in some of the chains. O-linked glycan consists of a Glc-Gal disaccharide bound to the oxygen atom of a post-translationally added hydroxyl group. DISEASE: Defects in COL1A1 are the cause of Caffey disease (CAFFD) [MIM:114000]; also known as infantile cortical hyperostosis. Caffey disease is characterized by an infantile episode of massive subperiosteal new bone formation that typically involves the diaphyses of the long bones, mandible, and clavicles. The involved bones may also appear inflamed, with painful swelling and systemic fever often accompanying the illness. The bone changes usually begin before 5 months of age and resolve before 2 years of age. Defects in COL1A1 are a cause of Ehlers-Danlos syndrome type 1 (EDS1) [MIM:130000]; also known as Ehlers-Danlos syndrome gravis. EDS is a connective tissue disorder characterized by hyperextensible skin, atrophic cutaneous scars due to tissue fragility and joint hyperlaxity. EDS1 is the severe form of classic Ehlers-Danlos syndrome. Defects in COL1A1 are the cause of Ehlers-Danlos syndrome type 7A (EDS7A) [MIM:130060]; also known as autosomal dominant Ehlers-Danlos syndrome type VII. EDS is a connective tissue disorder characterized by hyperextensible skin, atrophic cutaneous scars due to tissue fragility and joint hyperlaxity. EDS7A is marked by bilateral congenital hip dislocation, hyperlaxity of the joints, and recurrent partial dislocations. Defects in COL1A1 are a cause of osteogenesis imperfecta type 1 (OI1) [MIM:166200]. A dominantly inherited connective tissue disorder characterized by bone fragility and blue sclerae. Osteogenesis imperfecta type 1 is non-deforming with normal height or mild short stature, and no dentinogenesis imperfecta. Defects in COL1A1 are a cause of osteogenesis imperfecta type 2 (OI2) [MIM:166210]; also known as osteogenesis imperfecta congenita. A connective tissue disorder characterized by bone fragility, with many perinatal fractures, severe bowing of long bones, undermineralization, and death in the perinatal period due to respiratory insufficiency. Defects in COL1A1 are a cause of osteogenesis imperfecta type 3 (OI3) [MIM:259420]. A connective tissue disorder characterized by progressively deforming bones, very short stature, a triangular face, severe scoliosis, grayish sclera, and dentinogenesis imperfecta. Defects in COL1A1 are a cause of osteogenesis imperfecta type 4 (OI4) [MIM:166220]; also known as osteogenesis imperfecta with normal sclerae. A connective tissue disorder characterized by moderately short stature, mild to moderate scoliosis, grayish or white sclera and dentinogenesis imperfecta. Genetic variations in COL1A1 are a cause of susceptibility to osteoporosis (OSTEOP) [MIM:166710]; also known as involutional or senile osteoporosis or postmenopausal osteoporosis. Osteoporosis is characterized by reduced bone mass, disruption of bone microarchitecture without alteration in the composition of bone. Osteoporotic bones are more at risk of fracture. Note=A chromosomal aberration involving COL1A1 is found in dermatofibrosarcoma protuberans. Translocation t(17;22)(q22;q13) with PDGF. Similarity: Belongs to the fibrillar collagen family. Contains 1 fibrillar collagen NC1 domain. Contains 1 VWFC domain. SWISS: P02452 Gene ID: 1277 Database links: · Entrez Gene: 1277 Human · Entrez Gene: 12842 Mouse · Entrez Gene: 100008952 Rabbit · Entrez Gene: 29393 Rat · Omim: 120150 Human · SwissProt: P02453 Cow · SwissProt: O46392 Dog · SwissProt: P02452 Human · SwissProt: P11087 Mouse · SwissProt: P02454 Rat · Unigene: 172928 Human · Unigene: 277735 Mouse · Unigene: 107239 Rat I型胶原是软骨基质中的一种结构蛋白。主要用于Ⅰ型胶原分布及变态反应方面的研究。
Product Picture	Sample: Lane 1: HepG2 (Human) Cell Lysate at 30 ug Primary: Anti-Collagen I (SL0578R) at 1/1000 dilution Secondary: IRDye800CW Goat Anti-Rabbit IgG at 1/20000 dilution Predicted band size: 130,110 kD Observed band size: 130 kD Sample: Lane 1: Placenta (Mouse) Lysate at 40 ug Lane 2: U-2OS (Human) Cell Lysate at 30 ug Primary: Anti-Collagen I (SL0578R) at 1/1000 dilution Secondary: IRDye800CW Goat Anti-Rabbit IgG at 1/20000 dilution Predicted band size: 130,110 kD Observed band size: 130 kD Tissue/cell: human lung carcinoma; 4% Paraformaldehyde-fixed and paraffin-embedded; Antigen retrieval: citrate buffer ( 0.01M, pH 6.0 ), Boiling bathing for 15min; Block endogenous peroxidase by 3% Hydrogen peroxide for 30min; Blocking buffer (normal goat serum,C-0005) at 37℃ for 20 min; Incubation: Anti-Collagen I Polyclonal Antibody, Unconjugated(SL0578R) 1:200, overnight at 4°C, followed by conjugation to the secondary antibody(SP-0023) and DAB(C-0010) staining Tissue/cell: rat colon tissue; 4% Paraformaldehyde-fixed and paraffin-embedded; Antigen retrieval: citrate buffer ( 0.01M, pH 6.0 ), Boiling bathing for 15min; Block endogenous peroxidase by 3% Hydrogen peroxide for 30min; Blocking buffer (normal goat serum,C-0005) at 37℃ for 20 min; Incubation: Anti-Collagen I Polyclonal Antibody, Unconjugated(SL0578R) 1:200, overnight at 4°C, followed by conjugation to the secondary antibody(SP-0023) and DAB(C-0010) staining