We have developed a model for data processing in neo4j. These are the nodes :Experiment , :Variety , :Compound , :Parameter and the relationships between them. To specify from which variety is the value of the parameter we specified the paid property with the id of the relationship between variety and compound, but it is not specified how to connect to the initial node (: Experiment) . How can we specify from which experiment was the parameter value obtained?
// Experiment → Variety (id:3)
MATCH (a), (b)
WHERE id (a) = 15 AND id (b) = 3
CREATE (a) - [ rel : PROCESSED ] -> (b); //id:0
//Var. -> Compound
MATCH (a), (b)
WHERE id (a) = 3 AND id (b) = 24
CREATE (a) - [ rel : TREATED {paid: 0}] -> (b);
// Root length (cm)
// Compound -> Param (RL)
MATCH (a ), (b)
WHERE id ( a ) = 24 AND id (b) = 26
CREATE ( a ) - [ rel : MEASURES { cm : 9.65, paid: 1, paid: 0 }] -> (b );
//Experiment 12-07-21
// Experiment → Variety
MATCH ( a ), ( b )
WHERE id ( a ) = 20 AND id ( b ) = 3
CREATE ( a ) - [ rel : PROCESSED ] -> ( b );
// Variety → Compound
MATCH ( a ), ( b )
WHERE id ( a ) = 3 AND id ( b ) = 24
CREATE ( a ) - [ rel : TREATED{paid: 5} ] -> ( b );
// Root length (cm)
// Biovit
MATCH ( a ), ( b )
WHERE id ( a ) = 24 AND id ( b ) = 26
CREATE ( a ) - [ rel : MEASURES { cm : 14, paid: 3 }] -> ( b );
How to determine which experiment (Exp1 or Exp2) is the Root Length value (26). I used the paid property for Variety (3).
I may be getting closer to understanding, but maybe not. My interpretation from your description is that an experiment is on a specific variety of plant. That plant can be treated with one or more compounds. You then collect measurements and analyze the impact of each compound on the plant. You also have a control group for determining a baseline to compare the compounds against. If this is true, it seems logical that you could set a property in each relationship associated with this experiment that equals the experiment's unique id. You could then traverse the paths from experiment through variety, compounds, and then root length by constraining the relationships to those that have the experiment id property set to the experiment you are interested in analyzing.
If this doesn't work, would you consider a different data model? The fact that the compounds of an experiment are not directly related to the experiment results in the ambiguous parallel paths. making it difficult to associated the relationships back to its corresponding experiment. How about something like below:
The compounds are general and contain meta data describing the compound. The specifics of the compound to this experiment are saved in the "TREATED_WITH" relationship, such as quantity, mixture, etc. You could also store the measures and analytic results in the relationships, as the results are from the specific experiment and compound combination.
From this, you should be able to determine such things as all experiments a compound was used in, all experiments on a specific variety, all compounds used on a plant variety, or all varieties a compound was treated with, etc. You can get all the experiment inputs and analytic data by linking the experiment of interest with the control group and compounds and outputting the analytics. You can also compare the results of a specific compound on a specific variety over several experiments that have different experimental parameters.
Just some thoughts...I don't know if I am making sense, since I am not very familiar with your problem. My apologies if I am off.
I was thinking an experiment is an instance when you apply a specific combination of compounds to a single variety. Each time you vary the quantity and compounds for that variety, it would be another experiment. As such, after two experiments, you would have a graph like the following:
the measure nodes are where you would record the results of the experiment once completed and they are recorded. You would have the impact of the combination of compounds by seeing the change in your metrics against the control group measurements. From this graph, you should be able to get a summary of the impact of each combination of compounds for the given variety, which is the root node of the graph. Each variety would have its own graph linking its experiments with compounds and results.
If I am still overlooking something and the original model is still preferred, I think you can link all the paths together from an experiment to a root length node by using a unique identifier. Something like below will label all relationships along the desired path with the same uuid as assigned to the experiment node.
MATCH ( a ) WHERE id ( a ) = 20
SET a.uuid = randomUUID()
WITH a, a.uuid as uuid
MATCH( b ) WHERE id ( b ) = 3
CREATE ( a ) - [ rel:PROCESSED ] -> ( b )
SET rel.uuid = uuid
WITH a, b, uuid
MATCH ( c ) WHERE id ( c ) = 24
CREATE ( b ) - [ rel:TREATED{paid: 5} ] -> ( c )
SET rel.uuid = uuid
WITH a, b, c, uuid
MATCH ( d ) WHERE id ( d ) = 26
CREATE ( c ) - [ rel:MEASURES { cm : 14, paid: 3 }] -> ( d )
SET rel.uuid = uuid
RETURN uuid, a, b, c, d
With this, you should be able to find the path specific to an experiment using its uuid, as follows:
MATCH p = ( a:Experiment {uuid: $uuid} ) - [ :PROCESSED ] -> ( b ) - [ :TREATED ] -> ( c ) - [ :MEASURES ] -> ( d )
WHERE all ( r in relationships(p) WHERE r.uuid = $uuid )
RETURN a, b, c, d
Maybe this helps. If not, sorry for taking your time.
Thanks so much. I apologize for taking so much of your time as it's on me. In the first model, for each utilization of a compound, a new node must be created.
I think the last model is what I need. Although it's not clear which uuid must be used (to which nod or relationship it belongs).
The paid property must point the ID of the relationship to the initial nod. But the ID is not unique. The nods and relations have the same IDs. For example: id:3 belongs to the node S3C and, at the some time, to the relationship Experiment 2 -> Variety S1D. I do not know if it can be used anymore. Instead, maybe we should use CREATE (a) - [rel: CONTAINS {%: 5.37, exp:19, var:3}] -> (b); but the variables exp, var must be defined. As a result of the execution of the instruction, I get this error:
I found it difficult to use the neo4j id for matching, as the values change each time I recreated the data, and they don't match yours. I added an 'id' property to each node, so I can match on the same value each time. The other thing I found that was causing extra nodes to be created was not passing all variables through the 'with' statements. I ended up rearranging the order of operations so all the 'with' clauses are not necessary.
The following code seems to work. It links all the nodes together and each relationship has the same uuid as the experiment.
// Varieties
CREATE (var1: Variety {id: 1, var: 'S1C'}), (var2: Variety {id: 2, var: 'S2D'}), (var3: Variety {id: 3, var: 'S3H'});
// Experiments
CREATE (npp: Experiment {id: 1, exp: 'N2_P2_Prot'});
// Biostimulatory
CREATE (control: Compound {id: 1, comp: 'Control'}), (bvt: Compound { id: 2, comp: 'Bvt'}), (reg: Compound { id: 3, comp: 'Reg'});
// Parameters
CREATE(prot: Parameter{id: 1, param: 'Protein'}), (n2: Parameter{id: 2, param: 'N2'}), (p2: Parameter{id: 3, param: 'P2'}), (p2o5: Parameter{id: 4, param: 'P2O5'});
//Exp Prot_N_P -> Cont. Prot, N2, P2, P2O5
MATCH ( exp :Experiment ) WHERE exp.id = 1 //exp
SET exp.uuid = randomUUID ( )
WITH exp , exp.uuid as uuid
MATCH ( var :Variety) WHERE var.id = 1 //var
MATCH ( ctrl:Compound ) WHERE ctrl.id = 1
MATCH ( bvt:Compound ) WHERE bvt.id = 2 //var->bvt
MATCH ( reg :Compound) WHERE reg.id = 3 //var->reg
MATCH ( prot :Parameter) WHERE prot.id = 1 //Control->prot
MATCH ( n2:Parameter ) WHERE n2.id = 2 //Control->param
MATCH ( p2o5:Parameter ) WHERE p2o5.id = 4 //Control->param
MATCH ( p2:Parameter ) WHERE p2.id = 3 //Control->param
MERGE ( exp ) - [ rel1 : PROCESSED ] -> ( var )
SET rel1 . uuid = uuid
MERGE ( var ) - [ rel2 : NOT_TREATED ] -> ( ctrl ) //var->control
SET rel2 . uuid = uuid
MERGE ( var ) - [ rel3 : TREATED_WITH ] -> ( bvt )
SET rel3 . uuid = uuid
MERGE ( var ) - [ rel4 : TREATED_WITH ] -> ( reg )
SET rel4 . uuid = uuid
MERGE ( ctrl ) - [ rel5: CONTAINS { percent : 33.563 }] -> ( prot )
SET rel5 . uuid = uuid
MERGE ( bvt ) - [ rel6: CONTAINS { percent : 37.667 }] -> ( prot ) //bvt->param
SET rel6. uuid = uuid
MERGE ( reg ) - [ rel7 : CONTAINS { percent : 38.793 }] -> ( prot )
SET rel7. uuid = uuid
//Compounds->n2
MERGE ( ctrl ) - [ rel8 : CONTAINS { percent : 5.37 }] -> ( n2 )
SET rel8 . uuid = uuid
MERGE ( bvt ) - [ rel9: CONTAINS { percent : 6.0207 }] -> ( n2 ) //bvt->param
SET rel9 . uuid = uuid
MERGE ( reg ) - [ rel10: CONTAINS { percent : 2.2027 }] -> ( n2 )
SET rel10. uuid = uuid
//Compounds->p2
MERGE ( ctrl ) - [ rel11: CONTAINS { mg : 342.98 }] -> ( p2 )
SET rel11 . uuid = uuid
MERGE ( bvt ) - [ rel12 : CONTAINS { mg : 536.79 }] -> ( p2 ) //bvt->param
SET rel12. uuid = uuid
MERGE ( reg ) - [ rel13 : CONTAINS { mg : 361.78 }] -> ( p2 )
SET rel13 . uuid = uuid
//Compounds->p2o5
MERGE ( ctrl ) - [ rel14 : CONTAINS { mg : 7854.2 }] -> ( p2o5 )
SET rel14 . uuid = uuid
MERGE ( bvt ) - [ rel15 : CONTAINS { mg : 12293 }] -> ( p2o5 ) //bvt->param
SET rel15 . uuid = uuid
MERGE ( reg ) - [ rel16 : CONTAINS { mg : 8284.8 }] -> ( p2o5 ) //reg->param
SET rel16.uuid = uuid
The error states the 'dor' variable is not defined. The cause is the 'dor' value derived on line 10 not being passed through the chain of 'with' clauses to where it was needed on line 107. The parameter id's where also not aligned in the script.
The following seems to work. I removed unnecessary 'with' clauses.
//Exp Prot_N_P -> Cont. Prot, N2, P2, P2O5
with randomUUID() as uuid
MATCH ( exp :Experiment ) WHERE exp.id = 8 //exp
SET exp.uuid = uuid
WITH uuid, exp
MATCH ( clav :Variety) WHERE clav.id = 1 //var Clavera
SET clav.uuid = uuid
WITH clav, uuid, exp
MATCH ( dor :Variety) WHERE dor.id = 2 //var Dorința
SET dor.uuid = uuid
WITH clav, dor, uuid, exp
MATCH ( horb :Variety) WHERE horb.id = 11 //var Horb
SET horb.uuid = uuid
WITH clav, dor, horb , uuid, exp
MATCH ( ctrl:Compound ) WHERE ctrl.id = 1
MATCH ( bvt:Compound ) WHERE bvt.id = 4
MATCH ( reg :Compound) WHERE reg.id = 5
MATCH ( prot :Parameter) WHERE prot.id = 14
MATCH ( n2:Parameter ) WHERE n2.id = 17
MATCH ( p2:Parameter ) WHERE p2.id = 18
MATCH ( p2o5:Parameter ) WHERE p2o5.id = 19
//Exp -> Var
MERGE ( exp ) - [ rel1 : PROCESSED ] -> (clav )
SET rel1 . uuid = uuid
MERGE ( exp ) - [ rel2 : PROCESSED ] -> (dor )
SET rel2 . uuid = uuid
MERGE ( exp ) - [ rel3 : PROCESSED ] -> (horb )
SET rel3 . uuid = uuid
//Clavera -> Biostims
MERGE ( clav) - [ rel4 : NOT_TREATED ] -> ( ctrl )
SET rel4 . uuid = uuid
MERGE ( clav ) - [ rel5 : TREATED_WITH ] -> ( bvt )
SET rel5 . uuid = uuid
MERGE ( clav ) - [ rel6 : TREATED_WITH ] -> ( reg )
SET rel6 . uuid = uuid
//Dorința -> Biostims
MERGE ( dor) - [ rel7 : NOT_TREATED ] -> ( ctrl )
SET rel7 . uuid = uuid
MERGE ( dor ) - [ rel8 : TREATED_WITH ] -> ( bvt )
SET rel8 . uuid = uuid
MERGE ( dor ) - [ rel9 : TREATED_WITH ] -> ( reg )
SET rel9 . uuid = uuid
//Horb -> Biostims
MERGE ( horb) - [ rel10 : NOT_TREATED ] -> ( ctrl )
SET rel10 . uuid = uuid
MERGE ( horb ) - [ rel11 : TREATED_WITH ] -> ( bvt )
SET rel11 . uuid = uuid
MERGE ( horb ) - [ rel12 : TREATED_WITH ] -> ( reg )
SET rel12 . uuid = uuid
//Clavera -> Params
MERGE ( ctrl ) - [ rel13: CONTAINS { percent : 33.563 }] -> ( prot )
SET rel13 . uuid = uuid
MERGE ( bvt ) - [ rel14: CONTAINS { percent : 37.667 }] -> ( prot )
SET rel14. uuid = uuid
MERGE ( reg ) - [ rel15 : CONTAINS { percent : 38.793 }] -> ( prot )
SET rel15. uuid = uuid
MERGE ( ctrl ) - [ rel16 : CONTAINS { percent : 5.37 }] -> ( n2 )
SET rel16 . uuid = uuid
MERGE ( bvt ) - [ rel17: CONTAINS { percent : 6.0207 }] -> ( n2 ) //bvt->param
SET rel17 . uuid = uuid
MERGE ( reg ) - [ rel18: CONTAINS { percent : 6.2027 }] -> ( n2 )
SET rel18. uuid = uuid
MERGE ( ctrl ) - [ rel19: CONTAINS { mg : 342.98 }] -> ( p2 )
SET rel19 . uuid = uuid
MERGE ( bvt ) - [ rel20 : CONTAINS { mg : 536.79 }] -> ( p2 ) //bvt->param
SET rel20. uuid = uuid
MERGE ( reg ) - [ rel21 : CONTAINS { mg : 361.78 }] -> ( p2 )
SET rel21 . uuid = uuid
MERGE ( ctrl ) - [ rel22 : CONTAINS { mg : 7854.2 }] -> ( p2o5 )
SET rel22 . uuid = uuid
MERGE ( bvt ) - [ rel23 : CONTAINS { mg : 12293 }] -> ( p2o5 ) //bvt->param
SET rel23 . uuid = uuid
MERGE ( reg ) - [ rel24 : CONTAINS { mg : 8284.8 }] -> ( p2o5 ) //reg->param
SET rel24.uuid = uuid
//Dor -> Params
MERGE ( ctrl ) - [ rel25: CONTAINS { percent : 35.42 }] -> ( prot )
SET rel25 . uuid = uuid
MERGE ( bvt ) - [ rel26: CONTAINS { percent : 36.08 }] -> ( prot )
SET rel26. uuid = uuid
MERGE ( reg ) - [ rel27 : CONTAINS { percent : 35.896 }] -> ( prot )
SET rel27. uuid = uuid
MERGE ( ctrl ) - [ rel28 : CONTAINS { percent : 5.67 }] -> ( n2 )
SET rel28 . uuid = uuid
MERGE ( bvt ) - [ rel29: CONTAINS { percent : 5.77 }] -> ( n2 ) //bvt->param
SET rel29 . uuid = uuid
MERGE ( reg ) - [ rel30: CONTAINS { percent : 5.74 }] -> ( n2 )
SET rel30. uuid = uuid
MERGE ( ctrl ) - [ rel31: CONTAINS { mg : 365.586 }] -> ( p2 )
SET rel31 . uuid = uuid
MERGE ( bvt ) - [ rel32 : CONTAINS { mg : 390.89 }] -> ( p2 ) //bvt->param
SET rel32. uuid = uuid
MERGE ( reg ) - [ rel33 : CONTAINS { mg : 415.556 }] -> ( p2 )
SET rel33 . uuid = uuid
MERGE ( ctrl ) - [ rel34 : CONTAINS { mg : 8371.936 }] -> ( p2o5 )
SET rel34 . uuid = uuid
MERGE ( bvt ) - [ rel35 : CONTAINS { mg : 8951.38 }] -> ( p2o5 ) //bvt->param
SET rel35 . uuid = uuid
MERGE ( reg ) - [ rel36 : CONTAINS { mg : 9516.246 }] -> ( p2o5 ) //reg->param
SET rel36.uuid = uuid
//Horb -> Params
MERGE ( ctrl ) - [ rel37: CONTAINS { percent : 37.336 }] -> ( prot )
SET rel37 . uuid = uuid
MERGE ( bvt ) - [ rel38: CONTAINS { percent : 38.5 }] -> ( prot )
SET rel38. uuid = uuid
MERGE ( reg ) - [ rel39 : CONTAINS { percent : 37.583 }] -> ( prot )
SET rel39. uuid = uuid
MERGE ( ctrl ) - [ rel40 : CONTAINS { percent : 5.973 }] -> ( n2 )
SET rel40 . uuid = uuid
MERGE ( bvt ) - [ rel41: CONTAINS { percent : 6.16 }] -> ( n2 ) //bvt->param
SET rel41 . uuid = uuid
MERGE ( reg ) - [ rel42: CONTAINS { percent : 6.013 }] -> ( n2 )
SET rel42. uuid = uuid
MERGE ( ctrl ) - [ rel43: CONTAINS { mg : 353.413 }] -> ( p2 )
SET rel43 . uuid = uuid
MERGE ( bvt ) - [ rel44 : CONTAINS { mg : 398.533 }] -> ( p2 ) //bvt->param
SET rel44. uuid = uuid
MERGE ( reg ) - [ rel45 : CONTAINS { mg : 501.326 }] -> ( p2 )
SET rel45 . uuid = uuid
MERGE ( ctrl ) - [ rel46 : CONTAINS { mg : 8093.163 }] -> ( p2o5 )
SET rel46 . uuid = uuid
MERGE ( bvt ) - [ rel47 : CONTAINS { mg : 9126.413 }] -> ( p2o5 ) //bvt->param
SET rel47 . uuid = uuid
MERGE ( reg ) - [ rel48 : CONTAINS { mg : 11480.38 }] -> ( p2o5 ) //reg-> param
SET rel48.uuid = uuid
Is this what you want? Are you going to overlay another set of connections between all these nodes for each experiment you track?
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