CN111647607A - Method for efficiently expressing and secreting human growth hormone by using escherichia coli - Google Patents
Method for efficiently expressing and secreting human growth hormone by using escherichia coli Download PDFInfo
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Abstract
The invention discloses a method for efficiently expressing and secreting human growth hormone by using escherichia coli, which is characterized in that after double enzyme digestion, the escherichia coli is inserted into a corresponding enzyme digestion site of a vector pET28a (+) to obtain a pET28a-ST II-hGH recombinant vector, and an engineering bacterium: escherichia coli containing pET28 a-STII-hGH recombinant expression vector, expressing human growth hormone protein: culturing and inducing escherichia coli containing pET28a-ST II-hGH recombinant expression vector, and collecting thalli expressing human growth hormone protein; purifying the recombinant human growth hormone: the method comprises the steps of crushing thallus, ultrafiltering and carrying out chromatography, wherein a ribosome binding site is added to avoid using expensive restriction enzyme Nco I, a redundant sequence on pET28a (+) is removed, a T7 promoter originally used by a vector is utilized to start target gene expression, the conventional vector realizes efficient secretory expression of human growth hormone in escherichia coli, and the expression level of the growth hormone is improved.
Description
Technical Field
The invention relates to a method for human growth hormone, in particular to a method for efficiently expressing and secreting human growth hormone by using escherichia coli, belonging to the technical field of genetic engineering.
Background
Human Growth Hormone (hGH), a single-peptide chain, non-glycated, hydrophilic protein Hormone secreted by pituitary-flanked, clustered Growth Hormone cells (α cells), contains 191 amino acid residues, has a molecular weight of 21700Da, and an isoelectric point of 4.9. The main effects of the hGH include stimulation of growth and differentiation of bone and cartilage cells, regulation of protein, sugar and fat metabolism and the like, and the hGH can be used for treating dwarfism clinically. Growth hormone deficiency is one of the important factors that contribute to growth disorders in children. Recombinant human growth hormone is now widely used clinically.
The earliest hGH (50-70 th of 20 th century) was also called human pituitary-derived growth hormone, which was extracted from the newly-deceased human pituitary and was the growth hormone used clinically the earliest. The disadvantages are that: firstly, the source is limited, and the yield is rare; secondly, the purity is low, and antibodies are easy to generate; (iii) susceptibility to donor virus contamination, which was banned by the U.S. FDA in 1985. Early in the 80 s of the 20 th century: genentech company developed a 192 amino acid-containing gene recombinant human growth hormone, Met-rhGH, using the e.coli (e.coli) inclusion body technology, which has the disadvantages of: firstly, the extraction and renaturation process is complex; ② the coating is easy to be polluted; ③ it is not identical with human hGH, it is easy to produce antibody, and its purity and activity are lower, therefore it is also eliminated, in the middle of 20 th century 80 years, it uses general colibacillus gene expression technique to synthesize recombinant human growth hormone containing 191 amino acids, but because its structure is different from human pituitary growth hormone, it still is easy to produce antibody, in addition its secretion and extraction process are complex, it is easy to be polluted or introduce impurity to cause anaphylactic reaction, in the end of 20 th century 80 years, the recombinant human growth hormone containing 191 amino acids is synthesized by mammal cell recombinant DNA technique, said product and natural growth hormone structure are more similar, but its defect is: firstly, the requirement of cell culture is high, the propagation speed is slow, and the yield is low; ② adenovirus contamination-animal derived infection; ③ tumor generation, which is the pollution of the proliferation promoting medicine, in the 90 s of the 20 th century, the recombinant human growth hormone synthesized by the secretory escherichia coli gene expression technology is directly secreted outside the thalli. The amino acid content, the sequence and the protein structure of the recombinant human pituitary growth hormone are completely consistent with those of human pituitary growth hormone, the biological activity, the titer, the purity and the absorption rate are extremely high, the safety, the effectiveness and the stability of the product are ensured while the treatment cost is reduced to the maximum extent, but the prior escherichia coli secretory expression has the defects of low expression quantity, complex operation, higher requirements on instruments and equipment by ultralow temperature expression and the like, and in recent years, the yeast secretory expression of hGH can be used for expressing a large amount of hGH, but the yeast expression period is long, the culture medium configuration is complex, the parameter control requirement is higher and the like.
Disclosure of Invention
Aiming at the defects of the prior art, the method for efficiently expressing and secreting the human growth hormone by using the escherichia coli is provided, and has the technical characteristics of capability of improving the expression quantity of the growth hormone, easiness in expression of hGH, low cost, easiness in implementation and the like.
In order to achieve the purpose, the invention is realized by the following technical scheme:
the invention provides a recombinant human growth hormone nucleotide sequence which sequentially comprises a restriction enzyme cutting site 1, a ribosome binding site, a signal peptide coding region, a human growth hormone coding region and a restriction enzyme cutting site 2, wherein a signal peptide is a signal peptide coding sequence SEQ ID NO: 1, hGH coding sequence is SEQ ID NO: 2, respectively.
Preferably, restriction enzyme site 1 is an-XbaI site, restriction enzyme site 2 is an xhoI site, and the nucleotide sequence is SEQ ID NO: 3.
in another aspect, there is provided a recombinant expression vector obtained by: the nucleotide sequence is SEQ IDNO: 3, after double digestion, inserting the product into a corresponding digestion site of a vector pET28a (+) to obtain a pET28a-ST II-hGH recombinant vector.
On the other hand, the engineering bacteria for expressing the human growth hormone protein is preferably Escherichia coli BL21, and contains pET28a-ST II-hGH recombinant expression vector.
In another aspect, there is provided a method for expressing human growth hormone protein, comprising the steps of: a) inoculating Escherichia coli BL21 containing pET28 a-STII-hGH recombinant expression vector at a ratio of 1:100 (v/v); b) culturing at 37 deg.C for 3-5 hr, adding IPTG, and inducing at 25-30 deg.C for 3-5 hr; c) and (4) carrying out low-temperature centrifugation to collect thalli expressing human growth hormone protein.
Preferably, the medium used for culturing E.coli is LB medium.
Preferably, after culturing the E.coli at 37 ℃ for 3-4 hours, culturing the E.coli at 28 ℃ for half an hour, adding IPTG and continuing the 28 ℃ induction for 3-5 hours.
In another aspect, there is provided a method for purifying recombinant human growth hormone, comprising the steps of:
1) carrying out ultrasonic crushing or low-temperature freeze-thaw crushing on the thalli obtained in the step c), and centrifugally collecting a supernatant;
2) ultrafiltering with 30kD ultrafiltering tube, collecting penetrating liquid, and ultrafiltering with 5kD ultrafiltering tube to obtain trapped liquid;
3) and (3) enabling trapped fluid obtained in the step 2) to pass through a Q ion exchange column, and washing with washing liquid to obtain purified hGH protein.
Has the advantages that: the method for efficiently secreting and expressing human growth hormone by using escherichia coli has the following advantages:
1. the sequence is modified, the nucleotide sequence of the recombinant human growth hormone is redesigned according to the preference of codons, and the nucleotide sequence of the signal peptide enables the hGH to be more easily expressed.
2. The transformation of the vector can avoid the use of expensive restriction enzyme Nco I by adding a ribosome binding site, removes unnecessary redundant sequences on pET28a (+), uses the original T7 promoter of the vector to start the expression of a target gene, and successfully realizes the high-efficiency secretory expression of the human growth hormone in Escherichia coli BL21 by using the conventional vector pET28a (+).
3. The expression level of growth hormone is obviously improved, the expression level of human growth hormone secreted and expressed by escherichia coli in the prior art accounts for about 10-20 percent of the total bacterial weight, particularly the expression level of pET28a (+) vector is lower and only about ten percent, and the method provided by the application can reach 30-40 percent.
4. The restriction endonuclease provided by the invention is relatively cheap, the vector is common, the strain is common, and the control of the induced expression parameters is simple, so that the cost is low, the method is easy to realize and control, and the restriction endonuclease is easy to master by technicians and is convenient to popularize.
Drawings
FIG. 1 is a photograph of SDS-PAGE gel electrophoresis of cells collected after induction with IPTG at 37 ℃ for 4 hours.
FIG. 2 is an SDS-PAGE gel electrophoresis test image of cells collected after induction at 30 ℃ for 3 hours by adding IPTG in the invention.
FIG. 3 is an SDS-PAGE gel electrophoresis test image of cells collected after induction with IPTG at 25 ℃ for 5 hours.
FIG. 4 is an SDS-PAGE gel electrophoresis image of cells collected after induction with IPTG at 28 ℃ for 4 hours according to the present invention.
Wherein, in fig. 1: m-protein marker, 1-HGH protein standard, 2-induced expression total bacteria, 3-induced expression precipitation, 4-induced expression supernatant and 5-uninduced bacteria.
In fig. 2: 1-inducible expression of total thalli, 2-inducible expression of precipitation, 3-inducible expression of supernatant and 4-protein marker.
In fig. 3: 1-protein marker, 2-induced expression of total thalli, 3-induced expression of sediment and 4-induced expression of supernatant.
In fig. 4: 1-protein marker, 2-induced expression of total thalli, 3-induced expression of sediment and 4-induced expression of supernatant.
Detailed Description
The present invention will be further described with reference to the following examples, but the present invention is not limited to the following examples.
Escherichia coli heat stable enterotoxin II signal peptide coding sequence SEQ ID NO: 1
ATGAAGAAAAACATCGCGTTCCTGCTGGCGAGCATGTTCGTTTTTAGCATCGCGACCAACGCGTATGCG
The hGH coding sequence is SEQ ID NO: 2
TTCCCGACCATTCCGCTGAGCCGTCTGTTTGACAACGCGATGCTGCGTGCG CACCGTCTGCACCAGCTGGCGTTCGATACCTACCAAGAGTTTGAGGAAGC GTATATCCCGAAGGAACAGAAATACAGCTTCCTGCAGAACCCGCAAACCA GCCTGTGCTTTAGCGAGAGCATTCCGACCCCGAGCAACCGTGAGGAAACC CAGCAAAAGAGCAACCTGGAGCTGCTGCGTATCAGCCTGCTGCTGATTCA GAGCTGGCTGGAACCGGTGCAATTCCTGCGTAGCGTTTTTGCGAACAGCC TGGTGTATGGCGCGAGCGACAGCAACGTTTACGACCTGCTGAAGGATCTG GAGGAAGGTATCCAGACCCTGATGGGTCGTCTGGAAGACGGCAGCCCGCG TACCGGTCAGATTTTCAAGCAAACCTACAGCAAATTTGATACCAACAGCCA CAACGACGATGCGCTGCTGAAAAACTACGGCCTGCTGTATTGCTTCCGTAA GGACATGGATAAAGTGGAGACCTTTCTGCGTATTGTGCAATGCCGTAGCGT TGAAGGTAGCTGCGGCTTTTAA
The complete sequence of the ribosome binding site of the added restriction enzyme site SEQ ID NO: 3
TCTAGAAATAATTTTGTTTAACTTTAAGAAGGAGATATACATATGAAGAAAA ACATCGCGTTCCTGCTGGCGAGCATGTTCGTTTTTAGCATCGCGACCAACG CGTATGCGTTCCCGACCATTCCGCTGAGCCGTCTGTTTGACAACGCGATGC TGCGTGCGCACCGTCTGCACCAGCTGGCGTTCGATACCTACCAAGAGTTTG AGGAAGCGTATATCCCGAAGGAACAGAAATACAGCTTCCTGCAGAACCCG CAAACCAGCCTGTGCTTTAGCGAGAGCATTCCGACCCCGAGCAACCGTGA GGAAACCCAGCAAAAGAGCAACCTGGAGCTGCTGCGTATCAGCCTGCTGC TGATTCAGAGCTGGCTGGAACCGGTGCAATTCCTGCGTAGCGTTTTTGCGA ACAGCCTGGTGTATGGCGCGAGCGACAGCAACGTTTACGACCTGCTGAAG GATCTGGAGGAAGGTATCCAGACCCTGATGGGTCGTCTGGAAGACGGCAG CCCGCGTACCGGTCAGATTTTCAAGCAAACCTACAGCAAATTTGATACCAA CAGCCACAACGACGATGCGCTGCTGAAAAACTACGGCCTGCTGTATTGCTT CCGTAAGGACATGGATAAAGTGGAGACCTTTCTGCGTATTGTGCAATGCCG TAGCGTTGAAGGTAGCTGCGGCTTTTAACTCGAG
Encoded STII-hGH amino acid sequence:
MKKNIAFLLASMFVFSIATNAYAFPTIPLSRLFDNAMLRAHRLHQLAFDTYQE FEEAYIPKEQKYSFLQNPQTSLCFSESIPTPSNREETQQKSNLELLRISLLLIQSW LEPVQFLRSVFANSLVYGASDSNVYDLLKDLEEGIQTLMGRLEDGSPRTGQIF KQTYSKFDTNSHNDDALLKNYGLLYCFRKDMDKVETFLRIVQCRSVEGSCG F
obtaining the coding sequence of escherichia coli heat-resistant enterotoxin signal peptide and the coding sequence of hGH:
designing the coding sequence of the escherichia coli heat-resistant enterotoxin signal peptide SEQ ID NO: 2 and the coding sequence of hGH SEQ ID NO: 1.
design sequence restriction enzyme site 1 (preferably Xba) I-ribosome binding site-coding sequence of E.coli heat-resistant enterotoxin signal peptide-coding sequence of hGH-restriction enzyme site 2 (preferably Xho) I, the sequence is shown in SEQ ID NO: 3, the sequence is artificially synthesized, and the sequence SEQ ID NO: 3 is the amino acid sequence of SEQ ID NO: 4.
obtaining pET28a-hGH recombinant plasmid engineering bacteria:
converting SEQ ID NO: the 3 sequence and pET28a (+) are subjected to double digestion by Xba I and Xho I and then are connected by T4DNA ligase, the connection product is pET28a-hGH recombinant plasmid, HIS label connected with pET28a (+) and unnecessary redundant sequence behind ribosome aggregation site are removed from the recombinant plasmid, the protein sequence of signal peptide-hGH can be efficiently expressed, the amino acid sequence which is completely the same as the natural human growth hormone protein can be obtained after signal peptide excision, the pET28a-hGH recombinant plasmid is transformed into escherichia coli BL21, positive clone is selected on an LB plate containing ampicillin (100ug/mL), double digestion identification of plasmid Xba I and Xho I is carried out, sequencing identification is carried out, the successful cloning is identified, the BL21 engineering bacterium BL21-pET28a-hGH containing pET28a-hGH recombinant plasmid is successfully obtained, and the used culture medium is LB culture medium.
Induced expression of recombinant human growth hormone:
culturing engineering bacteria BL21-pET28a-hGH for 4 hours at 37 ℃, adding IPTG (isopropyl-beta-thiogalactoside) with the final concentration of 1mM, inducing for 4 hours, collecting thalli, and carrying out SDS-PAGE (sodium dodecyl sulfate-polyacrylamide gel electrophoresis) gel electrophoresis detection, wherein the result shows that no target gene is expressed, and is shown in figure 1;
culturing engineering bacteria BL21-pET28a-hGH for 4 hours at 37 ℃, adding IPTG (isopropyl-beta-D-thiogalactoside) with the final concentration of 1mM, inducing for 3 hours at 30 ℃, and detecting by SDS-PAGE (sodium dodecyl sulfate-polyacrylamide gel electrophoresis), wherein the target gene has expression in both supernatant and sediment, and the expression can reach more than 40%, as shown in figure 2;
culturing engineering bacteria BL21-pET28a-hGH for 3 hours at 37 ℃, adding IPTG (isopropyl-beta-thiogalactoside) with the final concentration of 1mM, inducing for 5 hours at 25 ℃, collecting thalli, and carrying out SDS-PAGE (sodium dodecyl sulfate-polyacrylamide gel electrophoresis) gel electrophoresis detection, wherein no target gene is expressed in both supernatant and sediment as shown in figure 3;
culturing engineering bacteria BL21-pET28a-hGH for 3 hours at 37 ℃, adding IPTG (isopropyl-beta-thiogalactoside) with the final concentration of 1mM, inducing for 4 hours at 28 ℃, collecting thalli, and carrying out SDS-PAGE (sodium dodecyl sulfate-polyacrylamide gel electrophoresis) gel electrophoresis detection, wherein no target gene is expressed in supernatant and sediment, the expression level of the supernatant is obviously increased, and the expression level can reach about 40% of total thalli, as shown in figure 4;
the volume ratio of the inoculation of the engineering bacteria in the induction expression of the recombinant human growth hormone is 1: 100.
Regarding the optimization of the final concentration of IPTG, IPTG with final concentrations of 0.5mM, 0.8mM and 1mM are respectively added under the premise that the culture induction condition is not changed, and the result shows that the induction expression effect of 1mMIPTG is optimal.
Purification of human growth hormone protein:
PBS (pH7.4, 20mM), solution A: Tris-HCl (pH9.0, 20mM), Wash solution: solution a of 200mm nacl, eluent: 500mM NaCl solution A, regenerated solution: 2M NaCl solution A.
Step 1) collecting thalli, centrifuging engineering bacteria BL21-pET28a-hGH for 10min at 8000rpm at 4 ℃ and collecting thalli precipitates, wherein the engineering bacteria BL21-pET 28-hGH is induced to express;
step 2) thallus crushing:
adding PBS (pH7.4, 20mM) into the thallus precipitate according to the volume ratio of 1:5-10, mixing uniformly, quickly freezing at-80 deg.C overnight, slowly melting at room temperature, freezing at-80 deg.C for 24 hr, slowly melting at room temperature, and repeating once. Centrifuging at 12000rpm for 20-30min to obtain supernatant;
another method for disrupting thallus comprises adding thallus precipitate into PBS (pH7.4, 20mM) at a volume ratio of 1:10, mixing, performing ultrasonic disruption in ice bath (2s ultrasound, 5s intermittent) for 10-20min, and centrifuging at 12000rpm/min for 20min to obtain supernatant.
Step 3) ultrafiltration:
using Millipore ultrafilter, intercepting molecular weight with ultrafiltration membrane of 5-10KD, collecting retentate (for removing small molecular impurities and salts), collecting retentate, adding 5-20 (preferably 10) times volume of Tris-HCl (pH9.0, 20mM) for dilution, ultrafiltering with 30KD ultrafiltration membrane, and collecting permeate to be passed through ion exchange column.
Step 4) chromatography:
the chromatographic column is Q ion exchange column
Loading the penetrating fluid obtained in the step 3), incubating for 3-5min with gentle shaking at room temperature, and standing for 1 min; washing with 2-3 times of washing solution, eluting with 2 times of eluent, and collecting eluent. SDS-PAGE detection shows that the purity of the purified human growth hormone protein can reach more than 95%.
Regenerating the column with regenerating liquid, deionizing and concentrating the eluent with 5KD ultrafilter membrane, and detecting with mass spectrum to obtain gamma human growth hormone protein.
A recombinant human growth hormone nucleotide sequence comprises a restriction enzyme cutting site 1, a ribosome binding site, a signal peptide coding region, a human growth hormone coding region hGH and a restriction enzyme cutting site 2 in sequence, wherein the signal peptide is Escherichia coli heat stable enterotoxin II signal peptide coding sequence SEQ ID NO: 1, the hGH coding sequence of the human growth hormone coding region is SEQ ID NO: 2.
as a modified example, the restriction enzyme cleavage site 1 is-XbaA cutting site, wherein the cutting site 2 of the restriction endonuclease is XhoCutting sites, wherein the nucleotide sequence of the recombinant human growth hormone is SEQ ID NO: 3.
a recombinant expression vector containing a recombinant human growth hormone nucleotide sequence is obtained by inserting the recombinant human growth hormone amino acid sequence into a vector pET28a (+) after double enzyme digestion.
The engineering bacterium containing the recombinant expression vector for expressing the human growth hormone protein is escherichia coli BL21 containing the recombinant expression vector.
A method for expressing human growth hormone protein by using the engineering bacteria comprises the following steps: a) inoculating the engineering bacteria according to the ratio of 1:100 (v/v); b) culturing at 37 deg.C for 3-5 hr, adding IPTG, and inducing at 25-30 deg.C for 3-5 hr; c) and (4) carrying out low-temperature centrifugation to collect thalli expressing human growth hormone protein.
As a modified example, the culture medium used for culturing Escherichia coli is LB medium.
As a modified example, after incubation at 37 deg.C for 3-4 hours, IPTG is then added and induction at 28 deg.C is continued for 3-5 hours.
A method for purifying recombinant human growth hormone by using thallus of human growth hormone protein comprises the following steps:
1) carrying out ultrasonic crushing or low-temperature freeze-thaw crushing on the thalli obtained in the step c), and centrifugally collecting a supernatant;
2) ultrafiltering with 30kD ultrafiltering tube, collecting penetrating liquid, and ultrafiltering with 5kD ultrafiltering tube to obtain trapped liquid;
3) and (3) passing the trapped fluid obtained in the step 2) through a Q ion exchange column, and washing by using a washing solution to obtain the purified hGH protein.
Finally, it should be noted that the present invention is not limited to the above embodiments, and many variations are possible. All modifications which can be derived or suggested by a person skilled in the art from the disclosure of the present invention are to be considered within the scope of the invention.
The invention name is as follows: method for efficiently expressing and secreting human growth hormone by using escherichia coli
The first applicant: shaoxing biological medicine research institute Co Ltd of Zhejiang university of science
The second applicant: zhejiang university of science and engineering
The third applicant: zhejiang peptide Biotechnology Ltd
Escherichia coli heat stable enterotoxin II signal peptide coding sequence SEQ ID NO: 1
ATGAAGAAAAACATCGCGTTCCTGCTGGCGAGCATGTTCGTTTTTAGCATCGCGACCAACGCGTATGCG
The hGH coding sequence is SEQ ID NO: 2
TTCCCGACCATTCCGCTGAGCCGTCTGTTTGACAACGCGATGCTGCGTGCGCACCGTCTGCACCAGCTGGCGTTCGATACCTACCAAGAGTTTGAGGAAGCGTATATCCCGAAGGAACAGAAATACAGCTTCCTGCAGAACCCGCAAACCAGCCTGTGCTTTAGCGAGAGCATTCCGACCCCGAGCAACCGTGAGGAAACCCAGCAAAAGAGCAACCTGGAGCTGCTGCGTATCAGCCTGCTGCTGATTCAGAGCTGGCTGGAACCGGTGCAATTCCTGCGTAGCGTTTTTGCGAACAGCCTGGTGTATGGCGCGAGCGACAGCAACGTTTACGACCTGCTGAAGGATCTGGAGGAAGGTATCCAGACCCTGATGGGTCGTCTGGAAGACGGCAGCCCGCGTACCGGTCAGATTTTCAAGCAAACCTACAGCAAATTTGATACCAACAGCCACAACGACGATGCGCTGCTGAAAAACTACGGCCTGCTGTATTGCTTCCGTAAGGACATGGATAAAGTGGAGACCTTTCTGCGTATTGTGCAATGCCGTAGCGTTGAAGGTAGCTGCGGCTTTTAA
The complete sequence of the ribosome binding site of the added restriction enzyme site SEQ ID NO: 3
TCTAGAAATAATTTTGTTTAACTTTAAGAAGGAGATATACATATGAAGAAAAACATCGCGTTCCTGCTGGCGAGCATGTTCGTTTTTAGCATCGCGACCAACGCGTATGCGTTCCCGACCATTCCGCTGAGCCGTCTGTTTGACAACGCGATGCTGCGTGCGCACCGTCTGCACCAGCTGGCGTTCGATACCTACCAAGAGTTTGAGGAAGCGTATATCCCGAAGGAACAGAAATACAGCTTCCTGCAGAACCCGCAAACCAGCCTGTGCTTTAGCGAGAGCATTCCGACCCCGAGCAACCGTGAGGAAACCCAGCAAAAGAGCAACCTGGAGCTGCTGCGTATCAGCCTGCTGCTGATTCAGAGCTGGCTGGAACCGGTGCAATTCCTGCGTAGCGTTTTTGCGAACAGCCTGGTGTATGGCGCGAGCGACAGCAACGTTTACGACCTGCTGAAGGATCTGGAGGAAGGTATCCAGACCCTGATGGGTCGTCTGGAAGACGGCAGCCCGCGTACCGGTCAGATTTTCAAGCAAACCTACAGCAAATTTGATACCAACAGCCACAACGACGATGCGCTGCTGAAAAACTACGGCCTGCTGTATTGCTTCCGTAAGGACATGGATAAAGTGGAGACCTTTCTGCGTATTGTGCAATGCCGTAGCGTTGAAGGTAGCTGCGGCTTTTAACTCGAG
Encoded STII-hGH amino acid sequence:
MKKNIAFLLASMFVFSIATNAYAFPTIPLSRLFDNAMLRAHRLHQLAFDTYQEFEEAYIPKEQKYSFLQNPQTSLCFSESIPTPSNREETQQKSNLELLRISLLLIQSWLEPVQFLRSVFANSLVYGASDSNVYDLLKDLEEGIQTLMGRLEDGSPRTGQIFKQTYSKFDTNSHNDDALLKNYGLLYCFRKDMDKVETFLRIVQCRSVEGSCGF
Claims (8)
1. the recombinant human growth hormone nucleotide sequence is characterized by sequentially comprising a restriction enzyme cutting site 1, a ribosome binding site, a signal peptide coding region, a human growth hormone coding region hGH and a restriction enzyme cutting site 2, wherein the signal peptide is an escherichia coli heat stable enterotoxin II signal peptide coding sequence SEQ ID NO: 1, the hGH coding sequence of the human growth hormone coding region is SEQ ID NO: 2.
2. the recombinant human growth hormone nucleotide sequence of claim 1, wherein the restriction enzyme cleavage site 1 is an XbaI cleavage site, the restriction enzyme cleavage site 2 is an XhoI cleavage site, and the recombinant human growth hormone nucleotide sequence is SEQ ID NO: 3.
3. a recombinant expression vector containing the recombinant human growth hormone nucleotide sequence of claim 1 or 2, wherein the recombinant expression vector contains the recombinant human growth hormone nucleotide sequence, and is obtained by double enzyme digestion of the recombinant human growth hormone amino acid sequence and insertion into a vector pET28a (+).
4. An engineering bacterium containing the recombinant expression vector of claim 3 and expressing human growth hormone protein, wherein the engineering bacterium is escherichia coli BL21 containing the recombinant expression vector.
5. A method for expressing human growth hormone protein by using the engineering bacteria of claim 4, which is characterized in that the expression method comprises the following steps: a) inoculating the engineering bacteria according to the ratio of 1:100 (v/v); b) culturing at 37 deg.C for 3-5 hr, adding 1mM IPTG, and inducing at 25-30 deg.C for 3-5 hr; c) and (4) carrying out low-temperature centrifugation to collect thalli expressing human growth hormone protein.
6. The method of claim 5, wherein the culture medium for culturing E.coli is LB medium.
7. The method of claim 6, wherein the culturing is carried out at 37 ℃ for 3-4 hours, and then the induction is continued at 28 ℃ for 3-5 hours by adding 1mM IPTG.
8. A method for purifying recombinant human growth hormone using the bacterial cell of human growth hormone protein of claim 5, 6 or 7, comprising the steps of:
1) carrying out ultrasonic crushing or low-temperature freeze-thaw crushing on the thalli obtained in the step c), and centrifugally collecting a supernatant;
2) ultrafiltering with 30kD ultrafiltering tube, collecting penetrating liquid, and ultrafiltering with 5kD ultrafiltering tube to obtain trapped liquid;
3) and (3) passing the trapped fluid obtained in the step 2) through a Q ion exchange column, and washing by using a washing solution to obtain the purified hGH protein.
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN112062830A (en) * | 2020-09-18 | 2020-12-11 | 深圳科兴药业有限公司 | Purification method for rapidly preparing recombinant human growth hormone |
CN112226454A (en) * | 2020-11-02 | 2021-01-15 | 杭州科迪赛生物科技有限公司 | Eukaryotic expression of recombinant human growth hormone and purification method thereof |
CN112239760A (en) * | 2020-09-18 | 2021-01-19 | 深圳科兴药业有限公司 | Recombinant engineering bacterium for efficiently expressing recombinant hGH (human growth hormone) and construction method and application thereof |
CN112250756A (en) * | 2020-11-02 | 2021-01-22 | 浙江清肽生物科技有限公司 | Purification method of recombinant human growth hormone protein |
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2020
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN112062830A (en) * | 2020-09-18 | 2020-12-11 | 深圳科兴药业有限公司 | Purification method for rapidly preparing recombinant human growth hormone |
CN112239760A (en) * | 2020-09-18 | 2021-01-19 | 深圳科兴药业有限公司 | Recombinant engineering bacterium for efficiently expressing recombinant hGH (human growth hormone) and construction method and application thereof |
CN112226454A (en) * | 2020-11-02 | 2021-01-15 | 杭州科迪赛生物科技有限公司 | Eukaryotic expression of recombinant human growth hormone and purification method thereof |
CN112250756A (en) * | 2020-11-02 | 2021-01-22 | 浙江清肽生物科技有限公司 | Purification method of recombinant human growth hormone protein |
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