High-throughput screening of mouse gene knockouts identifies established and novel skeletal phenotypes

Screening gene function in vivo is a powerful approach to discover novel drug targets. We present high-throughput screening （HTS） data for 3 762 distinct global gene knockout （KO） mouse lines with viable adult homozygous mice generated using either gene-trap or homologous recombination technologies. Bone mass was determined from DEXA scans of male and female mice at 14 weeks of age and by microCT analyses of bones from male mice at 16 weeks of age. Wild-type （WT） cagemates/littermates were examined for each gene KO. Lethality was observed in an additional 850 KO lines. Since primary HTS are susceptible to false positive findings, additional cohorts of mice from KO lines with intriguing HTS bone data were examined. Aging, ovariectomy, histomorphometry and bone strength studies were performed and possible non-skeletal phenotypes were explored. Together, these screens identified multiple genes affecting bone mass： 23 previously reported genes （Calcr, Cebpb, Crtap, Dcstamp, Dkkl, Duoxa2, Enppl, Fgf23, Kissl/Kisslr, Kl （Klotho）, Lrp5, Mstn, Neol, Npr2, Ostml, Postn, Sfrp4, S1c30a5, Sic39a13, Sost, Sumf1, Src, Wnt10b）, five novel genes extensively characterized （Cldn18, Fam20c, Lrrkl, Sgpll, Wnt16）, five novel genes with preliminary characterization （Agpat2, RassfS, Slc10a7, Stc26a7, Slc30a10） and three novel undisclosed genes coding for potential osteoporosis drug targets.

Engineering of Corynebacterium glutamicum to Enhance L-ornithine Production by Gene Knockout and Comparative Proteomic Analysis

Engineered Corynebacterium glutamicum was constructed for L-ornithine production by disrupting genes of argF and proB to prevent the flux away from L-ornithine.Effect of the inactivation of 2-oxoglutarate de-hydrogenase complex(ODHC) on L-ornithine production was also investigated.It was found that the inactivation of ODHC by knockout of the kgd gene enhanced L-ornithine production.The engineered C.glutamicum ATCC13032(ΔargFΔproBΔkgd) produced L-ornithine up to 4.78 g·L-1 from 0.24 g·L-1 of the wild-type strain.In order to understand the mechanism of L-ornithine production in C.glutamicum ATCC13032(ΔargFΔproBΔkgd) and find out new strategies for further enhancing L-ornithine production,the comparative proteome between the wild-type and the engineered strain was analyzed.L-Ornithine overproduction in the engineered strain was related to the up-regulation of the expression levels of enzymes involved in L-ornithine biosynthesis pathway and down-regulation of the expression levels of proteins involved in pentose phosphate pathway.The overexpression of genes in the upstream pathway of glutamate to increase the availability of endogenous glutamate may further in-crease ornithine production in the engineered C.glutamicum and the ornithine synthesis enzymes(ArgCJBD) may not be the limiting enzymes in the engineered C.glutamicum.

Gene knockout or inhibition of macrophage migration inhibitory factor alleviates lipopolysaccharide-induced liver injury via inhibiting inflammatory response

Background:Liver injury is one of the most common complications during sepsis.Macrophage migration inhibitory factor(MIF)is an important proinflammatory cytokine.This study explored the role of MIF in the lipopolysaccharide(LPS)-induced liver injury through genetically manipulated mouse strains.Methods:The model of LPS-induced liver injury was established in wild-type and Mif-knockout C57/BL6 mice.Serum levels of alanine aminotransferase(ALT),aspartate aminotransferase(AST),and total bilirubin(TBil)were detected,and the expressions of MIF,tumor necrosis factor-α(TNF-α)and interleukin-1β(IL-1β)were measured.Liver histopathology was conducted to assess liver injury.Moreover,the inhibitions of MIF with(S,R)-3-(4-hydroxyphenyl)-4,5-dihydro-5-isoxazole acetic acid methyl ester(ISO-1)and 4-iodo-6-phenylpyrimidine(4-IPP)were used to evaluate their therapeutic potential of liver injury.Results:Compared with wild-type mice,the liver function indices and inflammation factors presented no significant difference in the Mif-/-mice.After 72 h of the LPS-induced liver injury,serum levels of ALT,AST,and TBil as well as TNF-αand IL-1βwere significantly increased,but the knockout of Mif attenuated liver injury and inflammatory response.In liver tissue,m RNA levels of TNF-α,IL-1βand NF-κB p65 were remarkably elevated in LPS-induced liver injury,while the knockout of Mif reduced these levels.Moreover,in LPS-induced liver injury,the inhibitions of MIF with ISO-1 and 4-IPP alleviated liver injury and slightly attenuated inflammatory response.Importantly,compared to mice with LPS-induced liver injury,Mif knockout or MIF inhibitions significantly prolonged the survival of the mice.Conclusions:In LPS-induced liver injury,the knockout of Mif or MIF inhibitions alleviated liver injury and slightly attenuated inflammatory response,thereby prolonged the survival of the mice.Targeting MIF may be an important strategy to protect the liver from injury during sepsis.

Claudin-7 gene knockout causes destruction of intestinal structure and animal death in mice

BACKGROUND Claudin-7, one of the important components of cellular tight junctions, is currently considered to be expressed abnormally in colorectal inflammation and colorectal cancer. However, there is currently no effective animal model to study its specific mechanism. Therefore, we constructed three lines of Claudin-7 knockout mice using the Cre/LoxP system.AIM To determine the function of the tumor suppressor gene Claudin-7 by generating three lines of Claudin-7 gene knockout mice.METHODS We crossed Claudin-7-floxed mice with CMV-Cre, vil1-Cre, and villin-CreERT2 transgenic mice, and the offspring were self-crossed to obtain conventional Claudin-7 knockout mice, conditional(intestinal specific) Claudin-7 knockout mice, and inducible conditional Claudin-7 knockout mice. Intraperitoneal injection of tamoxifen into the inducible conditional Claudin-7 knockout mice can induce the knockout of Claudin-7. PCR and agarose gel electrophoresis were used to identify mouse genotypes, and Western blot was used to confirm the knockout of Claudin-7. The mental state, body length, and survival time of these mice were observed. The dying mice were sacrificed, and hematoxylin-eosin(HE) staining and immunohistochemical staining were performed to observe changes in intestinal structure and proliferation markers.RESULTS We generated Claudin-7-floxed mice and three lines of Claudin-7 gene knockout mice using the Cre/LoxP system successfully. Conventional and intestinal specific Claudin-7 knockout mice were stunted and died during the perinatal period, and intestinal HE staining in these mice revealed mucosal gland structure disappearance and connective tissue hyperplasia with extensive inflammatory cell infiltration. The inducible conditional Claudin-7 knockout mice had a normal phenotype at birth, but after the induction with tamoxifen, they exhibited a dying state. Intestinal HE staining showed significant inflammatory cell infiltration, and atypical hyperplasia and adenoma were also observed. Intestinal immunohistochemistry analysis showed abnormal expression and distribution of Ki67, and the normal intestinal proliferation balance was disrupted. The intestinal crypt size in inducible conditional Claudin-7 knockout mice was increased compared with control mice(small intestine: 54.1 ± 2.96 vs 38.4 ± 1.63;large intestine: 44.7 ± 1.93 vs 27.4 ± 0.60; P < 0.001).CONCLUSION The knockout of Claudin-7 in vivo causes extensive inflammation, atypical hyperplasia, and adenoma in intestinal tissue as well as animal death in mice.Claudin-7 may act as a tumor suppressor gene in the development of colorectal cancer.

Metabolic regulation of <i>Escherichia coli</i>cultivated under anaerobic and aerobic conditions in response to the specific pathway gene knockouts

Effect of the specific gene knockout on the main metabolism in Escherichia coli was reviewed, and the regulation mechanisms were clarified based on different levels of information such as gene expressions, enzyme activities, intracellular metabolite concentrations, and metabolic fluxes together with fermentation data. The effects of the knockout of such genes as pflA, pta, ppc, pykF, adhE, and ldhA on the metabolic changes were analyzed for the case under anaerobic condition. The effects of the knockout of such genes as pgi, zwf, gnd, ppc pck, pyk, and lpdA on the metabolic changes were also analyzed for the case under aerobic condition. The metabolic regulation analysis was made focusing on the roles of transcription factors.

Deletions are easy detectable in cochlear mitochondrial DNA of Cu/Zn superoxide dismutase gene knockout mice

Abstract Objectives To investigate the tissue specificity of reactive oxygen species (ROS) damage to mitochondrial DNA (mtDNA) and to determine whether cochlear mtDNA is a sensitive target for ROS damage. Methods 10 Cu/ZnSOD gene (Cu/Zn superoxide dismutase gene, Sod1) knockout mice and 16 wild-type mice were analyzed by nested polymerase chain reaction (PCR).Results Three deletions were detected in various tissues of Sod1 knockout mice. MtDNA3867bp and mtDNA3726bp deletions were the most visible, and mtDNA4236bp deletion was barely detected in these tissues. There were obvious differences in the ratio of deleted mtDNA/total mtDNA in different tissue. Deleted mtDNA was most abundant in the liver and kidney and less in cochlea, heart and brain. The lowest was in spleen and skin. The ratio in various tissues was 3-20 times in Sod1 knockout mice over wild-type mice. In cochlea, the ratio was about 15. Conclusions Without the protection of Sod1, ROS can lead to mtDNA deletions in various tissues with significant tissue specificity. Cochlear mtDNA is a sensitive target for ROS damage.

Effects of p75 neurotrophin receptor knockout on axonal regeneration in a mouse model of facial nerve injury

BACKGROUND： Previous studies have shown that p75 neurotrophin receptor plays an important role in peripheral nerve injury. However, the role of p75 neurotrophin receptor in the regeneration of peripheral nerves remains poorly understood. OBJECTIVE： To study the effect of p75 neurotrophin receptor on facial nerve regeneration. DESIGN, TIME AND SETTING： A randomized controlled experiment was performed in the Regeneration Laboratory of Flinders University, Australia and the Biomedical Laboratory of Dentistry School, Shandong University from March 2005 to February 2006. MATERIALS： Cholera toxin B subunit, fast blue, and biotin rabbit-anti goat IgG were provided by Sigma, USA; goat-anti choleratoxin B subunit ant/body was provided by List Biologicals, USA. METHODS： In p75 neurotrophin receptor knockout and wild type 129/sv mice, the facial nerves on one side were crushed. At days 2 and 4 following injury, regenerating motor neurons in the facial nuclei were labeled by fast blue, and the regenerating axon was labeled by the anterograde tracer choleratoxin B subunit. MAIN OUTCOME MEASURES： Axonal regenerative velocity and number were detected by immunohistochemical staining of choleratoxin B subunit, growth-associated protein, protein gene product 9.5, and calcitonin-gene-related peptide; survival of motor neurons in the facial nuclei was detected by retrograde fast blue. RESULTS： Axonal growth in the facial nerve of p75 neurotrophin receptor knockout mice was significantly less than in wild type mice. At day 7 after injury, the number of regenerating motor neurons in p75 neurotrophin receptor knockout mice remained significantly less than in wild type mice （P 〈 0.05）. The number of positively stained fibers for growth-associated protein-43, protein gene product 9.5, and calcitonin-gene-related peptide in p75 neurotrophin receptor knockout mice was significantly less than in wild type mice （P 〈 0.01）. CONCLUSION： p75 neurotrophin receptor promoted axonal regeneration and enhanced the survival rate of motor neurons following facial nerve injury.

Effect of Huxin Formula(护心方) on Reverse Cholesterol Transport in ApoE-Gene Knockout Mice

Objective： TO observe the effect of Huxin Formula （护心方, HXF） on expressions of the chief reverse cholesterol transport （RCT） associated genes, caveolin-1 and scavenger receptor-B I （SR-B I ） in ApoE-gene knockout [ApoE （-/-）] mice. Methods： Thirty ApoE （-/-） mice of 4-6 weeks old were randomly divided into three groups （A-C）. After being fed with high-fat diet for 16 weeks, they were treated with HXF （1 mL/100 g）, pravachol （0.3 mg/100 g）, and saline in equal volume respectively for 16 weeks successively; in addition, a blank group was set up with 10 C57BL/6J mice of 6-week old received 16-week high-fat feeding and saline treatment. Animals were sacrificed at the termination of the experiment, their paraffin sections of aortic tissue were used to measure the size of plaque, expressions of cavolin-1 and SR-B I were detected by immunological histochemical method. Results： As compared with the blank group, levels of caveolin-1 and SR-B I were increased in Groups A and B （P〈0.01）; but the increase in Group A was more significant than that in Group B （P〈0.05）. The plaque/aorta area ratio decreased significantly in Groups A and B, but showed insignificant difference between the two groups. Conclusion： HXF could obviously increase the expressions of RCT associated genes, caveolin-1 and SR-B I, promote the RCT process, so as to reduce the formation of aorta atherosclerotic plaque in ApoE （-/-） mice.

Effect of PRAK gene knockout on the proliferation of mouseembryonic fibroblasts

p38 regulated/activated protein kinase(PRAK)plays a key role in cell senescence and tumor suppression.The aim of this study was to investigate if PRAK had effect on cell proliferation.The growth of PRAK+/+and PRAK^(–/–)mouse embryonicfibroblast(MEF)cells was measured by methylthiazoletetrazolium(MTT)colorimetric assay,and the proportion of the cell number in different phases of the cell cycle was analyzed byflow cytometry.The growth curves showed that the growth rate was notably decreased,and cell double time was elongated in PRAK^(–/–)cells;moreover,the number of PRAK^(–/–)cells was decreased by 44.5%compared with that of PRAK+/+cells cultured for 96 h,suggesting that G2/M transition is inhibited in PRAK^(–/–)cells.Meanwhile,G1/S transition was also inhibited in PRAK^(–/–)cells,observed withflow cytometry analysis.The ratios of G0/G1,G2/M,and S phases of PRAK+/+cells were 44.9%,12.2%,and 42.9%,respec-tively,while those of PRAK^(–/–)cells were 55.3%,7.3%,and 37.4%,respectively.There were 23.1%increase and 12.7%decrease of the number of PRAK^(–/–)cells in G1 and S phases in comparison with that of PRAK+/+cells,respectively.Taken together,PRAK gene knockout in MEF cells leads to cell cycle arrest and proliferation inhibition.

Instability of microsatellites linked to targeted genes inCRISPR/Cas9-edited and traditional gene knockout mouse strains

The classic method for gene knockout (KO) is based on homologous recombination (HR) and embryonic stem cell technique (Gerlai,1996).Actually,the procedure of homologous replacement is complicated and time consuming,although it has been popular during the past decades.Recent years,genome editing which can cause DNA sequence-specific mutations in the genomes of cellular

FpPDE1 function of Fsarium pseudograminearum on pathogenesis in wheat

Wheat crown rot caused by Fusarium spp. is a common disease worldwide. Both Fusarium pseudograminearum and Fusarium graminearum infect wheat crown and produce mycotoxin leading to grain loss due to white head. F. pseudograminearum （Fp） was reported in wheat from Henan Province of China a couple of years ago. The wheat crown rot （CR） caused by this new pathogen is as an emerging severe disease of wheat, which has recently expanded to several provinces in China and is, therefore, under rapid investigation. Colonization of wheat tissue by Fp is accomplished though the formation of a septated foot-shaped appressoria and generation of a penetration peg to break through the internal cells of leaf sheath. The molecular mechanism by which Fp regulates the pathogenesis on wheat host is unclear. Here, we report FpPDE1, a P-type ATPase-encoding predicted PDE1 orthologue gene of Magnaporthe oryzae, belonging to the DRS2 subfamily of aminophospholipid translocases. The gene deletion of FpPDE1 with the split-marker approach did not obviously affect hyphae growth and conidiation, but led to an attenuated virulence on wheat base stem and root. Our finding indicates that the putative aminophospholipid translocases is not essential for the infectious hyphae development in Fp.

Magnaporthe oryzae MTP1 gene encodes a type Ⅲ transmembrane protein involved in conidiation and conidial germination

In this study the MTP1 gene, encoding a type III integral transmembrane protein, was isolated from the rice blast fungus Magnaporthe oryzae. The Mtp 1 protein is 520 amino acids long and is comparable to the Ytp 1 protein of Saccharomyces cerevisiae with 46% sequence similarity. Prediction programs and MTP1-GFP （green fluorescent protein） fusion expression results indicate that Mtp 1 is a protein located at several membranes in the cytoplasm. The functions of the MTP1 gene in the growth and development of the fungus were studied using an MTP1 gene knockout mutant. The MTP1 gene was primarily expressed at the hyphal and conidial stages and is necessary for conidiation and conidial germination, but is not required for pathogenicity. The Amtpl mutant grew more efficiently than the wild type strain on non-fermentable carbon sources, implying that the MTP1 gene has a unique role in respiratory growth and carbon source use.

Localization of NKCC1 in the Cochlea and Morphology of the Cochlea in NKCC1-Knockout Mice

The distribution of the Na-K-2Cl co-transporter （NKCCl） in the cochlear K^＋ cycling pathway in cochlea and cochlear histological changes in the NKCCl knockout mice were investigated. By using immunohistochemistry and toluidine blue staining, the localization of NKCCl in cochlea of the C57BL/6J mice and the cochlear histological changes in the NKCCl knockout mice were observed. It was found that the NKCCl was expressed mainly in the stria marginal cells and the fibrocytes in the inferior portion of the spiral ligament in the adult C57BL/6J mice. Subpopulation of the fibrocytes in the suprastrial region and the limbus was also moderately immunoreactive. While in the cochlea of the NKCCl knockout mice, Reissner＇s membrane was collapsed and scala media disappeared, accompanied with the loss of inner hair cells, outer hair cells and the support cells. The tunnel of Corti was often absent. All the findings suggested the localization of NKCCl in the cochlea was closely correlated with cochlear K^＋ cycling. Loss of NKCCl led to the destruction of the cochlear structures, and subsequently influenced the physiological function of cochlea.

Reduced Bone Mineral Density and Bone Metabolism in Aquaporin-1 Knockout Mice

An overt phenotype of aquaporin-1 knockout（AQP1 ko） mice is growth retardation, suggesting possible defects in bone development and metabolism. In the present study, we analyzed the bone mineral density（ BMD）, bone calcium and phosphorus contents, and bone metabolism in an AQP1 ko mouse model. The BMD of femurs in AQP1 ko mice was significantly lower than that of litter-matched wildtype mice as measured by dual energy X-ray absorptiometry. Consistently, the contents of bone total calcium and phosphorus were also significantly lower in AQP1 ko mice. The reduced BMD caused by AQP1 deficiency mainly affect male mice. Bone metabolic activity, as indicated by 99m^Tc-MDP absorption measurements, was remarkably reduced in AQP1 ko mice. These results provide the first evidence that AQP1 play an important role in bone structure and metabolism.

StKU80, a component in the NHEJ repair pathway, is involved in mycelial morphogenesis, conidiation, appressorium development, and oxidative stress reactions in Exserohilum turcicum

Homologous recombination(HR) and nonhomologous end joining(NHEJ) are considered the two main double-strand break(DSB) repair approaches in eukaryotes. Inhibiting the activities of the key component in NHEJ commonly enhances the efficiency of targeted gene knockouts or affects growth and development in higher eukaryotes. However, little is known about the roles of the NHEJ pathway in foliar pathogens. Here we identified a gene designated St KU80, which encodes a putative DNA end-binding protein homologous to yeast Ku80, in the foliar pathogen Exserohilum turcicum. Conserved domain analysis showed that the typical domains VWA, Ku78 and Ku-PK-bind are usually present in Ku70/80 proteins in eukaryotes and are also present in St Ku80. Phylogenetic analysis indicated that St Ku80 is most closely related to Ku80(XP001802136.1) from Parastagonospora nodorum, followed by Ku80(AGF90044.1) from Monascus ruber. Furthermore, the gene knockout mutants ΔSt KU80-1 and ΔSt KU80-2 were obtained. These mutants displayed longer septas, thinner cell walls, smaller amounts of substances on cell wall surfaces, and more mitochondria per cell than the wild-type(WT) strain but similar HT-toxin activity. The mutants did not produce conidia and mature appressoria. On the other hand, the mutants were highly sensitive to H2O2, but not to ultraviolet radiation. In summary, the St KU80 plays devious roles in regulating the development of E. turcicum.

The testis-specifically expressed gene Trim69 is not essential for fertility in mice

Protein ubiquitination is essential for diverse cellular functions including spermatogenesis.The tripartite motif(TRIM)family proteins,most of which have E3 ubiquitin ligase activity,are highly conserved in mammals.They are involved in important cellular processes such as embryonic development,immunity,and fertility.Our previous studies indicated that Trim69,a testis-specific expressed TRIM family gene,potentially participates in the spermatogenesis by mediating testicular cells apoptosis.In this study,we investigated the biological functions of Trim69 in male mice by established Trim69 knockout mice with CRISPR/Cas9 genomic editing technology.Here,we reported that the male Trim69 knockout mice had normal fertility.The adult knockout mice have shown that the appearance of testes,testis/body weight ratios,testicular histomorphology,and the number and quality of sperm were consistent with wild-type mice.These results indicated that the E3 ubiquitin ligase protein Trim69 was not essential for male mouse fertility,and it might be compensated by other TRIM family members such as Trim58 in Trim69-deficiency testis.This study would help to elucidate the functions of tripartite motif protein family and the regulation of spermatogenesis.

Nascent Polypeptide-Associated Complex Involved in the Development and Pathogenesis of Fusarium graminearum on Wheat

Reliable knowledge on pathogenic agents contributes to effective plant protection.For most plant pathogens,maintaining protein homeostasis(proteostasis)is essential for unfolding the cellular functions to survive and thrive.However,the fungal proteins involved in proteostasis remain poorly characterized in the process of pathogenesis.In this study,we characterized the function of the nascent polypeptideassociated complex(NAC)in Fusarium graminearum(F.graminearum)(FgNAC),one of the top 10 fungal pathogens with predominant scientific/economic importance.We found that FgNACa,a subunit of FgNAC,manifests high structural and functional similarity to its homologous counterparts in yeast and other species.The mutants of F.graminearum lacking NACa are viable but suffer significant defects in vegetative growth,conidial production,and pathogenesis.In addition,we show here that FgNACa can interact with another subunit of NAC(FgNACb)in a yeast-two-hybrid assay.The subcellular localization results show that FgNACa and FgNACb are predominantly localized in the cytoplasm.Future studies should focus on deciphering the mechanism by which NAC orchestrates protein biogenesis and consequentially modulates development and pathogenesis.

Growth and Reproduction Characteristics of TLR4 Knockout Mice Used for Liver Fibrosis Experiments

[Objectives]This study was conducted to investigate the similarity and differences between TLR4 knockout mice and C57 BL/6 mice used in liver fibrosis research in terms of growth rate and reproduction ability.[Methods]Twenty TLR4 knockout mice and C57 BL/6 mice,half male and half female,were selected to compare the growth rates of body weight and body length of mice from the 4th to 12th weeks;and 20 pairs of male and female mice of the same strain were compared for the number of baby mice of the second litter.[Results]The growth rates of body weight and body length of the TLR4 knockout mice were significantly lower than those of C57 BL/6 mice(P<0.05)(except for the 4th and 5th weeks when there was no significant difference in body length);and in terms of reproductive ability,the TLR4 knockout mice were significantly lower than the C57 BL/6 mice(the ratio of the total number of baby mice in the second litter of the two strains,72∶147).[Conclusions]Knockout of the TLR4 gene has a significant impact on the growth and reproduction of mice.

Construction and biological characterization of Burkholderia pseudomallei sRNA gene deletion strain

Objective:Construction of Burkholderia pseudomallei(B.pseudomallei)sRNA knockout strains and observation of their biological function.Methods:Design 9sF/9sR,9xF/9xR and R1/F1 primers,which were used to amplify the homologous arm fragment upstream and downstream of the sRNA gene,through enzyme cutting,ligation,and transformation,the sRNA gene was knocked out from the B.pseudomallei by homologous recombination method.Results:The sRNA mutant was successfully constructed.In comparison with wild strain HNBP001,the growth rate,motility and biofilm formation ofΔsRNA decreased,but the antibiotic sensitivity has no differences.Conclusion:The sRNA knockout strain of B.pseudomallei was successfully constructed,laying a foundation for further research on its mechanism of regulating B.pseudomallei.

A Non-Marker Mutagenesis Strategy to Generate Poly-hrp Gene Mutants in the Rice Pathogen Xanthomonas oryzae pv. oryzicola

Xanthomonas oryzae pv.oryzicola （Xoc）,the critical pathogen causing bacterial leaf streak in rice,possesses a hrp cluster that is responsible for triggering hypersensitive response （HR） in non-host tobacco and pathogenicity in host rice,and is considered to be one of the model pathogens in the rice model plant.Here,we developed a high-throughput mutagenesis system using a two-step integration mediated by a novel suicide vector pKMS1.It was used to generate single or poly-gene mutants of hpa1,hpa2,hrcV,hrpE,hpaB,and hrpF gene for functional analysis.In total,five single,four double,and two triple hrp gene mutants were constructed.The double and triple hrp gene deletion mutants triggered novel phenotypes in planta.Our data suggest that pKMS1 is a useful tool for non-marker mutagenesis of multiple genes in Xoc.