JP3888999B2 - Information processing system using base sequence related information - Google Patents

Description

Technical field
The present invention relates to an information processing system that provides information via, for example, a communication network.
Background art
Currently, genome base sequences of various organisms including humans are rapidly determined, and genome base sequence information is accumulated in various databases. For example, a system that allows various research institutions and researchers to use genome base sequence information stored in a database via an information communication network such as the Internet is being constructed.
At the same time, research on genomic drug discovery and analysis of genetic information are being actively conducted using the base sequences included in such genomic base sequence information. Differences in the base sequence are attracting attention. In general, the difference in the base sequence between individuals is a polymorphism that is defined as having a predetermined base difference at a frequency of 1% or more in the individual species, and a predetermined base difference is less than 1% in the individual species. Means variation. In particular, in the polymorphism, a single nucleotide polymorphism (SNP: Single Nucleotide Polymorphism), which is a single base difference between individuals, is deleted or inserted. Insertion / deletion polymorphism, VNTR (variable number of tandem repeat) and microsatellite polymorphism (repetition sequence is about 2 to 4 bases) with different number of repetitions of sequences of 2 to several tens of bases as one unit )It has been known.
Such polymorphisms may affect differences in protein amino acid sequences between individuals, differences in expression efficiency of a given gene between individuals, and the like. Due to such influence, it is known that, for example, the morbidity possibility with respect to a predetermined disease varies among individuals, and the sensitivity to a predetermined drug varies among individuals.
However, at present, no system has been constructed that effectively uses the difference in base sequence information among individuals such as polymorphisms to provide useful semantic information for each individual.
Therefore, in view of such a current situation, the present invention can effectively use the difference in base sequence information between individuals to use semantic information useful for each individual, and easily qualify the user to use the information. The purpose is to build an information processing system that can authenticate automatically.
Disclosure of the invention
The information processing method related to the base sequence according to the present invention that achieves the above-described object (hereinafter, this method) uses the position information acquired from the requester side and the base sequence related information to make an authentication confirmation request from the requester. A method of responding, and a method of requesting authentication confirmation using position information and base sequence related information associated with the position information.
In this method, it is determined whether the base sequence related information acquired from the requester side matches the base sequence related information included in the storage device that stores the position information and the base sequence related information associated with the position information. To confirm the authentication.
In this method, position information is transmitted to the requester side, base sequence related information associated with the transmitted position information is acquired from the requester side, and the determination is performed based on the acquired base sequence related information. Can do. Further, in this method, without sending position information to the requester side, the requester side acquires the base sequence related information associated with the authentication confirmation request and the position information, and based on the acquired base sequence related information Judgment can be made.
In this method, the determination result can be sent to the requester. The method stores the position information and the base sequence related information associated with the position information for each of the plurality of requesters having usage qualifications or for each individual belonging to the requester, and the storage contents of the storage device May include a step of constructing.
On the other hand, in this method, after sending an authentication confirmation request, position information is acquired, base sequence related information associated with the acquired position information is acquired, and the acquired base sequence related information is transmitted in association with the position information. You can receive authentication confirmation. In this method, the base sequence related information associated with the position information is acquired without acquiring the position information, and the acquired base sequence related information is associated with the position information and transmitted together with the authentication confirmation request. Confirmation can be received. Furthermore, the method may include a step of obtaining an authentication confirmation result.
The method can be realized as a program that causes a computer including hardware such as a control device, a transmission / reception device, and a storage device to execute each step. The present method can also be realized as a recording medium that records a program that causes a computer including hardware such as a control device, a transmission / reception device, and a storage device to execute each step. Furthermore, this method can also be realized as an information processing apparatus including hardware such as a control device, a transmission / reception device, and a storage device that execute each step.
In addition, this invention has the structure as described in each claim.
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the present invention will be described in detail with reference to the drawings.
As an embodiment to which the present invention is applied, an information processing system that provides a user with the possibility of suffering a predetermined disease will be described. That is, a case where the user requests that he / she wants to know his / her morbidity regarding a predetermined disease will be described as an example of the “request for goods and / or services”. In particular, in the present embodiment, an information processing system that performs authentication of usage qualification using base sequence related information will be described. However, for convenience of explanation, it will be described as a simplified model. Note that “goods and / or services” are not limited to this, and are suitable for, for example, articles such as pharmaceuticals, foods and luxury goods suitable for an individual (individual) constitution, and an individual (individual) constitution / property. This includes information such as information provided, membership information provision, and account use at financial institutions.
As shown in FIG. 1, the information processing system includes a communication network 1 such as the Internet, a shared computer 2 connected to the communication network 1, and at least one or more personal computers 3 connected to the communication network 1. The data communication between the shared computer 2 and the personal computer 3 is made possible via the communication line network 1.
As shown in FIG. 2, the shared computer 2 includes a CPU 4 that controls all operations of the shared computer 2, an input device 5 such as a keyboard and a mouse that can input information and program execution instructions, and a display device and the like. Device 6, memory 7 for recording temporary information and non-rewritable information, database 8 for storing various data, and recording device for writing predetermined information in memory 7 and database 8 9 and a transmission / reception device 18 (which may be a reception device having only a reception function) for transmitting / receiving information to / from the personal computer 3 via the communication line network 1.
The memory 7 in the shared computer 2 includes a memory unit A10 and a memory unit B11 that record different types of information, a screen memory 12 that records image data to be displayed on the personal computer 3 or the display device 6, for example, and this system. And a processing program 13 for operating. The shared computer 2 does not have the screen memory 12 and the processing program 13 in the internal memory 7 but in an external storage device (not shown) connected to the shared computer 2 via the communication line network 1. It may be a thing.
The database 8 (storage device) in the shared computer 2 includes a main DB 14 in which a multi-model area, a polymorphic pattern, and semantic information are recorded, a storage DB-A 15 that stores information recorded in the memory unit A10, and a memory unit. It consists of a storage DB-B16 for storing information recorded in B11 and an authentication polymorphic pattern database 17. As shown in FIG. 3, the main DB 14 is recorded in association with a multi-model number area, a plurality of polymorph patterns that can be taken in the multi-model area, and semantic information that signifies each of the plurality of polymorph patterns. Yes. The main DB 14 may also record semantic information that means a combination of polymorphic patterns (for example, haplotypes) in a plurality of multimodel numbers.
Here, “multi-model number location (position information)” means at least a position where a polymorphism exists in the base sequence. In general, the polymorphism includes, for example, so-called SNP (single nucleotide polymorphism), RFLP (restriction fragment length of polymorphism), VNTR (variable number of tentative rewrite), and so on. However, the “polymorphism” used in the present specification is not limited to these, and includes a base and a change (variation) in the base sequence that are present in the individual species with a frequency of less than 1%. Therefore, “multi-model address” means to include a position in a base sequence that indicates a change in base and base sequence that exists only at a frequency of less than 1% in an individual species. That is, the “multi-model number place” represents a position indicating a polymorphism or the like by combining numerical values, characters, symbols, and the like. The polymorphism location is not particularly limited. For example, the polymorphism can be represented by a combination of a chromosome number and a symbol representing a gene in which the polymorphism exists and a numerical value indicating the location of the polymorphism in the gene. A combination of a symbol indicating an existing gene and a numerical value indicating the position of polymorphism in the gene may be used.
The polymorphism number may be a polymorphic notation assigned to each polymorphism. When a polymorphism-specific notation is used as the polymorphism location, the polymorphism location does not directly indicate the position in the base sequence, but the position can be indirectly known based on the polymorphism-specific notation. Therefore, “multi-model number place” means to include notation unique to the polymorphism.
“Polymorphism pattern (base sequence related information)” is information on a base sequence that differs between individuals, and means that it includes at least a base or base sequence pattern in the polymorphism. Furthermore, the “polymorphism pattern” is not limited to polymorphism, and includes a pattern of bases and base sequences that are present only at a frequency of less than 1% in individual species. For example, in a polymorphism area that is known to take A or G, the “polymorphism pattern” is represented by either “A” or “G”.
Further, the “polymorphic pattern” may indicate a heterozygote or a homozygote in a homologous chromosome. In this case, for example, in a multi-model area that is known to take A or G, the “polymorphic pattern” can be expressed by any one of “AA”, “GG”, and “AG”.
Furthermore, the “polymorphic pattern” does not directly represent a pattern that can be taken in a predetermined polymorphism area, but may indirectly represent it. That is, the “polymorphic pattern” is, for example, “allele 1” when taking “A” in a polymorphism area known to take A or G, and “allele 2” when taking “G”. May be written. Further, when the “polymorphic pattern” can be expressed by any of “AA”, “GG”, and “AG” as described above, for example, when it can be expressed by “AA”, it can be expressed by “α”, “GG”. When it can be expressed as “β”, when it can be expressed as “AG”, it may be expressed as “γ”.
Other examples of “polymorphism pattern” are “repetition number” when the polymorphism is microsatellite, and “present / absent” symbol when the polymorphism is insertion or deletion. It may be written as Furthermore, the “polymorphism pattern” in each polymorphism area may be described as, for example, “polymorphism 1”, “polymorphism 2”, or “polymorphism 3” according to a predetermined rule or agreement. For example, “polymorphism 1”, “polymorphism 2”, and “polymorphism 3” can be written in descending order of the frequency that the “polymorphism pattern” can take in each polymorphism area. In this case, for example, each “polymorph 1” in each multi-model number area does not necessarily represent the same content. That is, for example, “polymorph 1” of a certain model number indicates “AA” having the highest frequency, and another “model 1” indicates “GG” having the highest frequency. become.
Here, the “semantic information” is information associated with the “polymorphism pattern”, and is based on, for example, responsiveness to drugs, side effects on drugs, risks to diseases and disorders, constitutions / properties, constitutions / properties, etc. It means various information resulting from differences in "polymorphic patterns" such as lifestyle advice and protein interactions. The “semantic information” may directly represent various information resulting from the difference in the “polymorphic pattern”, or may be indirectly represented using a symbol or the like meaning the information. The “semantic information” is information of a type that is corrected as the number of types increases as research on the genome / gene progresses, and it is preferable to always upgrade the version. In other words, the “semantic information” becomes more accurate by updating / accumulating the database using the research results of the genome / genes, thereby increasing / decreasing the accumulated amount. The main DB 14 may be associated with a multi-model number address and a polymorphic pattern that can be taken in the multi-model number area, and a multi-model number area and a polymorphic pattern that are not associated with semantic information may be recorded. .
Information that is not directly related to the “polymorphic pattern” but is further derived from the “semantic information” is “information related to the semantic information”. When the “semantic information” is “risk for a disease”, when the risk exceeds a certain level, for example, a specific “health checkup item” is derived. This specific “health examination item” is “information related to semantic information”.
In the present embodiment, the semantic information is recorded in the main DB 14 as “annotation information for a polymorphic pattern” associated with at least a predetermined “polymorphic pattern place” and “polymorphic pattern” as shown in FIG. Yes. The semantic information is associated with “polymorphic classification” and “classification (disease name)” corresponding to a predetermined “multi-model number location”. That is, when the predetermined “multi-model number” is a predetermined “polymorphic pattern”, it is possible to obtain annotation information (semantic information) indicating the type of disease name and the morbidity of the disease. Therefore, for example, the semantic information can be associated with a combination (for example, haplotype) of each polymorphic pattern corresponding to a plurality of polymorphism addresses. That is, annotation information (semantic information) indicating different morbidity with respect to a predetermined disease can be associated with each combination of polymorphic patterns in a plurality of polymorphism locations. In this case, when a plurality of multi-model numbers are a combination of predetermined polymorphic patterns, annotation information (semantic information) indicating the possibility of suffering from a predetermined disease can be obtained.
Further, the “publication level” determined by a predetermined standard can be associated with the semantic information. For example, the criteria for determining the “publication level” should be determined in consideration of unforeseen disadvantages to individuals due to the disclosure of the semantic information, that is, here the possibility of “classification (disease name)”. Can do. Specifically, in the shared computer 2, in accordance with laws, rules, own behavior standards, or contracts with users, etc., a “publication level” is determined so that semantic information that is not appropriate to be disclosed is not disclosed. be able to. In this case, in the present system, the annotation information indicating the possibility of morbidity associated with the “public level” meaning that the information cannot be disclosed is not disclosed to the user. As a result, it is possible to prevent the user from being given semantic information that can be an unexpected disadvantage, and to prevent the semantic information from being disclosed to anyone other than the contractor.
In addition, when the user accepts the disclosure of the semantic information associated with the predetermined “public level” through informed consent, the semantic information associated with the predetermined “public level” is disclosed to the user. It may be a system that does this.
Further, the “public level” can be set as a plurality of three or more stages such as “1, 2, 3,...” Or “a, b, c,. In this case, on the shared computer 2 side, the level can be set according to the type of the user, such as the user's age, qualification, and whether there is a contract with the user. The informed consent etc. is disclosed by the user side so that only annotation information indicating the possibility of morbidity associated with a public level higher than (or less than) the predetermined public level is provided to the user side. You can also select the level.
In the database 8, for example, data such as base sequence related information that is genetic information of the individual requester who uses the system can be recorded in the storage DB-B 16. The storage DB-A 15 can record data such as information for specifying a requester who uses the system. As described above, the genetic information of the requester and the data specifying the requester are separately recorded in the storage DB-A 15 and the storage DB-B 16 by recording the individual genetic information and the information specifying the individual separately. It becomes difficult to relate.
The shared computer 2 is not limited to the one having the database 8 therein, and may have an external database (not shown) connected to the shared computer 2 via the communication line network 1. The shared computer 2 may have a plurality of databases 8 inside, or may have an internal database 8 and an external database connected to the shared computer 2 via the communication line network 1. May be.
As shown in FIG. 4, the personal computer 3 includes a CPU 20 that controls all operations of the personal computer 3, an input device 21 such as a keyboard and a mouse that can input information and program execution instructions, a display device, and the like. Display device 22, memory 23 in which temporary information and rewritable information are recorded, reading device 25 that reads data from genome-related information recording medium 24, and shared computer 2 via communication network 1 And a transmission / reception device 29 for transmitting / receiving information between them. The personal computer 3 is not limited to a normal computer, and may be in any form such as a mobile phone, a personal mobile terminal, and other mobile communication devices.
The memory 23 in the personal computer 3 has a memory unit 26 for recording information from the genome related information recording medium 24, and a processing program 27 for operating the information processing system is recorded therein.
In the genome related information recording medium 24, individual genome related information 28 is recorded. Examples of the genome-related information recording medium 24 include a magnetic recording medium such as a magnetic disk and a magnetic card, an optical recording medium to which a magneto-optical recording method, a phase change recording method, and the like are applied, and a semiconductor memory. The genome-related information recording medium 24 may be in any form such as card, disk, stick, tape, or drum. Further, the genome-related information recording medium 24 may be one that records genome-related information 28 of a single individual (individual), but records a plurality of genome-related information 28 related to a plurality of individuals (individuals). It may be a thing.
The genome-related information 28 included in the genome-related information recording medium 24 includes at least a “polymorphism pattern” in a predetermined multi-model area obtained as a result of analyzing the base sequence of the “multi-model area” and an individual (individual). means. In addition, the genome-related information 28 may include various types of information such as past illness, characteristics, medical record information, and health checkup results.
The genome-related information recording medium 24 includes, as the genome-related information 28, for example, as shown in FIG. 5, the individual number “Gno.” (G number) unique to the genome-related information 28 as data I and the date of birth, etc. Personal information is recorded, a multi-model area and a polymorphic pattern are recorded as data II, a past disease is recorded as data III, a feature is recorded as data IV, and medical record information and the like are recorded as data V. That is, the genome related information 28 includes data I, data II, data III, data IV, and data V. Data I and data II contain essential information, and data III, data IV and data V are composed of additional information.
In the genome related information 28, the “multi-model number location” corresponding to the position on the base sequence and the “polymorphism pattern” in the multi-model location are linked and recorded. Further, in the data II, additional information in a predetermined multi-model address may be recorded as a “comment” linked to the “multi-model address”. Data II may record the entire base sequence related to a predetermined individual. Even when the entire base sequence is recorded in the data II, the “polymorphic pattern” and the “polymorphic pattern” are included in the data II.
In the present invention, the personal computer 3 and the genome-related information recording medium 24 are not limited to the configurations shown in FIGS. 4 and 5, respectively. For example, the memory section in which the genome-related information recording medium has a processing program. The personal computer may be configured to operate the processing program by mounting the genome-related information recording medium. In this case, the personal computer can operate according to the processing program recorded in the memory section of the genome related information recording medium.
On the other hand, in the database 8 of the shared computer 2, as shown in FIG. 6, the authentication polymorphism pattern database 17 includes a plurality of polymorphisms and polymorphisms for each "Gno." Combinations with patterns are recorded in association with each other. Here, the usage qualification can be obtained by clearing a predetermined condition set by the shared computer 2 side. Examples of the conditions include the age of the user, the presence / absence of submission of a health check result, the use contents and consent to the terms, the presence / absence of a contract, and the like. The method for obtaining the usage qualification is not particularly limited, but can be performed between the personal computer 3 and the shared computer 2 via the communication line network 1.
The authentication polymorphism pattern database 17 submits a polymorphism pattern related to a plurality of polymorphism numbers and “Gno.” To the individual who has obtained the above-mentioned usage qualification on the shared computer 2 side, and receives the predetermined polymorphism address received. Can be produced by associating and recording the polymorphic pattern and “Gno.”. At this time, the plurality of multi-model numbers for which the individual is requested to submit may be different for each of the plurality of individuals or may be common to the plurality of individuals.
Moreover, it is preferable to use a multi-model number address to which the semantic information shown in the main DB 14 is not associated as a plurality of multi-model numbers that are requested to be submitted to the user. That is, it is preferable to construct a polymorphic pattern database 17 for authentication in which a polymorphic pattern not associated with semantic information and a polymorphic address are associated with an individual who has obtained the usage qualification.
In the information processing system configured as described above, each individual (hereinafter referred to as a requester) having the genome-related information recording medium 24 accesses the shared computer 2 through the communication network 1 using the personal computer 3. The system uses semantic information recorded in the main DB 14 of the shared computer 2. The information processing system may be a system in which each individual accesses the genome-related information recording medium 24 using the genome-related information recording medium 24 in which the genome-related information 28 of a plurality of persons is recorded.
In this system, first, the processing program 13 recorded in the memory 7 of the shared computer 2 and the processing program 27 recorded in the memory 23 of the personal computer 3 are, for example, according to flowcharts as shown in FIGS. The authentication confirmation process for confirming the use qualification of the requester is executed. In the flowcharts shown in FIG. 7 and FIG. 8, a step described as “(co)” means a process in the shared computer 2, and a step described as “(piece)” means a process in the personal computer 3. ing.
In this authentication confirmation process, first, in step 1 (denoted as “S1” in the drawing, the same applies to step 2 and subsequent steps), the process recorded in the memory 23 when the requester uses the system. The program 27 is activated, and the genome related information recording medium 24 is accessed by the processing of the processing program 27. Specifically, the processing program 27 drives the reading device 25 of the personal computer 3 to access the genome related information recording medium 24. Next, in step 2 (S2), the processing program 27 reads “Gno.” Recorded as data I in the genome-related information recording medium 24. The read “Gno.” Is stored in the memory unit 26.
Next, in step 3 (S 3), the requester transmits “Gno.” Stored in the memory unit 26 from the personal computer 3 via the communication line network 1 to the shared computer 2. In step 3, by transmitting “Gno.” To the shared computer 2, authentication of the requester having the genome-related information recording medium 24 of “Gno.” Is requested (authentication confirmation request).
Next, in step 4 (S4), the shared computer 2 receives “Gno.” (Authentication confirmation request) from the personal computer 3. The received “Gno.” Is stored in the memory unit A10. When the shared computer 2 receives “Gno.” In step 4, the processing program 13 is activated.
Next, in step 5 (S5), the authentication polymorphic pattern database 17 is accessed according to the processing program 13 of the shared computer 2. Next, in step 6 (S6), a predetermined number of multi-model numbers enclosed by “Gno.” Matching “Gno.” Received in step 4 from the authentication polymorphism pattern database 17 in accordance with the processing program 13 Read out the multi-model number. The multi-model number read in step 6 may be all the multi-model numbers recorded in the authentication polymorphism pattern database 17 for the predetermined “Gno.”, Or may be recorded in the authentication polymorphism pattern database 17. Some of the multi-model numbers may be used. In the case of reading some multi-model addresses, some multi-model addresses determined in advance may be used, or some multi-model addresses selected at random each time may be used. Further, in step 6, when a predetermined multi-model number address is read, the polymorphic pattern associated with the multi-model number address may be read simultaneously. The read multi-model number and the like are recorded in the memory unit A10 in a state associated with the requester “Gno.”.
Next, in step 7 (S 7), “Gno.” And “multi-model address” recorded in the memory unit A 10 according to the processing program 13 are transmitted to the personal computer 3 via the communication network 1. That is, in step 7, the shared computer 2 transmits information for instructing the personal computer 3 to submit a polymorphic pattern associated with a predetermined polymorphism address.
Next, in step 8 (S8), “Gno.” And “multi-model address” transmitted from the shared computer 2 are received by the personal computer 3. The received “Gno.” And “multi-model number address” are recorded in the memory unit 26.
Next, in step 9 (S 9), when the personal computer 3 receives “Gno” and “multi-model number address” from the shared computer 2, the reading device 25 is driven according to the processing program 27 to the genome-related information recording medium 24. to access. Next, in step 10 (S10), according to the processing program 27, the “polymorphic pattern” associated with the “multiple model number place” received in step 8 is read from the genome-related information recording medium 24. The read “polymorphic pattern” is recorded in the memory unit 26 in association with the “polymorphic address”.
Next, in step 11 (S11), the “multi-model number address” recorded in the memory unit 26 and the “poly-type pattern” associated with the multi-model number address together with “Gno.” Are transmitted via the communication network 1. Transmit to the shared computer 2. That is, in step 11, “multi-model number address” included in the command information transmitted in step 7 and “polymorphic pattern” associated with the multi-model number address are transmitted.
In the above-described process, in step 7, the shared computer 2 sends out command information instructing the submission of the “polymorphic pattern”, and in step 10, the personal computer 3 converts the polymorphic pattern into the genome related information according to the command information. Reading from the recording medium 24. However, this system may be a system that does not send out the command information in step 7. In this case, in step 10, the personal computer 3 searches the data II based on the multi-model number received in step 8 in accordance with the processing program 27, and reads the received polymorphism pattern of the multi-model number. Then, the personal computer 3 outputs a polymorphic pattern or the like to the shared computer 2 in step 11.
Next, in step 12 (S 12), the shared computer 2 receives “Gno.”, “Multi-model address”, and “polymorphic pattern” transmitted from the personal computer 3. The received “Gno.”, “Multi-model address”, and “polymorph pattern” are stored in the memory unit A10. Next, in step 13 (S 13), when “Gno.”, “Multi-model area”, and “polymorphic pattern” are received from the personal computer 3, the authentication polymorphic pattern database 17 is processed according to the processing program 13 of the shared computer 2. To access.
Next, in step 14 (S 14), the authentication polymorphic pattern database 17 is searched for a match with “Gno.” And “polymorphic model number” received in step 12, and is retrieved from the authentication polymorphic pattern database 17. The “polymorphic pattern” associated with the “multiple model number” is read out. The read polymorphic pattern is recorded in the memory unit A10 in association with the polymorphism address. Note that when the “polymorphic pattern” associated with the multi-model number address is read together with the multi-model number address in step 6, the process proceeds to step 15 after step 12 without performing these steps 13 and 14.
Next, in step 15 (S15), it is determined whether or not the “polymorphic pattern” read in step 14 and the “polymorphic pattern” received in step 12 all match. Specifically, it is determined whether or not the “polymorphic pattern” read in step 14 and the “polymorphic pattern” received in step 12 are the same for all of the polymorphisms ordered to be submitted in step 7. . In Step 6, when the “polymorphic pattern” associated with the multi-model number address is read together with the multi-model number address, the “polymorphic pattern” read in Step 6 and the “multi-pattern pattern” received in Step 12 are read. Match or mismatch with “type pattern” is determined. If the “polymorphic pattern” read in step 14 matches the “polymorphic pattern” received in step 12 as a result of the determination in step 15, the process proceeds to step 16 (S 16), and even one does not match If there is, the process proceeds to step 17 (S17).
In step 16 (S16), the personal computer 3 is notified that the authentication relating to the use qualification has been confirmed. Specifically, screen data indicating that the authentication has been confirmed is transmitted to the personal computer 3. In step 18 (S18), the personal computer 3 receives the screen data and causes the display device 22 to display the screen data. Thereby, on the shared computer 2 side, the use qualification of the requester can be confirmed when using the system, and unauthorized use of the system can be prevented. In step 16, instead of transmitting screen data to the personal computer 3, authentication confirmation data may be transmitted. In this case, the personal computer 3 displays an authentication confirmation completion screen on the display device 22 from the received authentication confirmation data.
On the other hand, in step 17 (S17), the personal computer 3 is notified that the authentication relating to the use qualification has not been confirmed, and the processing is stopped. Specifically, screen data indicating that the authentication confirmation processing is rejected is transmitted to the personal computer 3, and the screen data is displayed on the display device 22. In step 17, instead of transmitting screen data to the personal computer 3, unauthenticated data may be transmitted. In this case, the personal computer 3 displays an authentication confirmation incomplete screen on the display device 22 from the received authentication unconfirmed data.
In this system, the case where the individual who owns the genome-related information recording medium 24 is the requester has been described, but the present invention is not limited to this. That is, in this system, a requester may be a person who is different from the individual who owns the genome related information recording medium 24 or the individual to which the genome related information 28 of the genome related information recording medium 24 belongs. As such a case, for example, a case where a doctor becomes a requester and makes the above-described authentication confirmation request using the patient's genome-related information recording medium 24 can be cited.
After executing the authentication confirmation process as described above, the system performs an information processing operation according to flowcharts as shown in FIGS. 9 and 10, for example. Similarly, in the flowcharts shown in FIGS. 9 and 10, the step described as “(co-)” means processing in the shared computer 2, and the step described as “(number)” is processing in the personal computer 3. Means.
The requester who has been authenticated for the use qualification activates the processing program 27 recorded in the memory 23 in step A1 (SA1). The reading program 25 of the personal computer 3 is driven by the processing program 27 to access the genome related information recording medium 24 and “Gno.” Recorded as data I in the genome related information recording medium 24 is read. The read “Gno.” Is stored in the memory unit 26.
Next, in step A2 (SA2), information that the requester wants to receive based on the screen image displayed on the display device 22 by the processing program 27, for example, “possibility of colorectal cancer” (request information) ) Is input to the personal computer 3, and “possibility of colorectal cancer” and “Gno.” Are transmitted from the personal computer 3 to the shared computer 2 via the communication network 1. Alternatively, “possibility of colorectal cancer” and “Gno.” Are written from the personal computer 3 to the shared computer 2 via the communication network 1.
Next, in step A3 (SA3), the shared computer 2 receives “possibility of colorectal cancer” and “Gno.”. The received “possibility of colorectal cancer” and “Gno.” Are stored as request information in the memory unit A10.
Next, in step A4 (SA4), when the request information is received, the processing program 13 recorded in the memory 7 is activated and the main DB 14 is accessed. The processing program 13 performs processing in the shared computer 2.
Next, in step A5 (SA5), “classification (disease name)” recorded in the main DB 14 is searched according to the processing program 13, and the requested “possibility of colorectal cancer” (colorectal cancer). That match is extracted.
In step A6 (SA6), the “multi-model address” associated with the “classification (disease name)” (colon cancer) that matches the “morbidity of colorectal cancer” from the data recorded in the main DB 14. "Is read out. The read “multi-model number address” is stored in the memory unit A10 as position information associated with the request information. That is, “possibility of colorectal cancer” and “multi-model number address” are recorded in the memory unit A10 for a predetermined “Gno.”.
Next, in step A7 (SA7), “Gno.” And “multi-model number address” recorded in the memory unit A10 are transmitted to the personal computer 3 and “multi-model number address” corresponding to the transmitted “multi-model number address” is transmitted. The command information for submitting the “type pattern” is transmitted to the personal computer 3. At this time, depending on the type of request information, it may be instructed to submit additional information such as a past illness or a feature as necessary.
Next, in step A8 (SA8), “Gno.”, “Multi-model address” and command information transmitted from the shared computer 2 are received. The received “Gno.” And “multi-model address” are recorded in the memory unit 26.
Next, in step A9 (SA9), the data II recorded in the genome related information recording medium 24 is accessed according to the received command information. In step A10 (SA10), the data II recorded in the genome-related information recording medium 24 is searched according to the processing program 27, the commanded polymorphism pattern of the polymorphism area is read, and the polymorphism area and polymorphism pattern are obtained. The data is recorded in the memory unit 26 in association with each other. At this time, it is preferable to access data I and confirm whether or not “Gno.” Received in step A8 is correct. In Step A10, in addition to the polymorphic pattern, additional information recorded in the data III, data IV, and data V may be simultaneously read and recorded in the memory unit 26 as necessary.
Next, in step A11 (SA11), the polymorphic pattern associated with the polymorphism number temporarily recorded in the memory unit 26 and the additional information recorded as necessary are transmitted together with “Gno.” To the communication line. The data is output to the shared computer 2 via the network 1. In step A12 (SA12), the shared computer 2 receives the polymorphism pattern associated with the polymorphism address and additional information recorded as necessary, and associates the received polymorphism pattern with the polymorphism area and stores the memory. Record in part A10.
In this example, in step A7, the shared computer 2 sends out command information instructing the submission of the “polymorphic pattern”. In step A10, the personal computer 3 records the polymorphic pattern in accordance with the command information in the genome related information recording. Reading from the medium 24. However, this system may be a system that does not transmit the command information in step A7. In this case, in step A10, the personal computer 3 searches the data II based on the multi-model number received in step A8 according to the processing program 27, and reads the received polymorphic pattern of the multi-model number. Then, the personal computer 3 outputs the polymorphic pattern and the like to the shared computer 2 at step A11. Even in this case, the shared computer 2 can obtain the polymorphism pattern of “multi-model area” associated with “classification (disease name)” that matches “possibility of colorectal cancer” in step A12. .
Next, in step A13 (SA13), the main DB 14 is accessed, and a search is made for a match with the received polymorphism address and polymorphism pattern. Specifically, in the main DB 14, a plurality of polymorphic patterns are recorded for one polymorphism address, and the received polymorphism pattern and the polymorphism pattern match which polymorphic pattern in the main DB14. To find out.
Next, in step A14 (SA14), according to the processing program 13, the possibility of suffering from colorectal cancer associated with the polymorphic pattern that matches the received polymorphic pattern is read out. That is, in step A14, according to the multi-model number area and polymorphism pattern submitted by the requester, it is possible to read out the possibility of the requester suffering from colorectal cancer. The read possibility of morbidity is stored in the memory unit A10 in association with the requester “Gno.”. At this time, the possibility of suffering from colorectal cancer may be stored in a form corrected by additional information, or other information obtained from the additional information is stored in association with the requester “Gno.”. You may do it.
Next, in step A15 (SA15), “Gno.” Of the requester stored in the memory unit A10 and the morbidity possibility are transmitted as semantic information to the personal computer 3 via the communication network 1. In step A16 (SA16), the personal computer 3 receives the requester's “Gno.” And the morbidity (semantic information). The received semantic information is recorded in the memory unit 26.
Next, in step A17 (SA17), according to the processing program 27, the possibility of suffering from colorectal cancer is displayed on the display device 22 from the semantic information recorded in the memory unit 26. Note that instead of steps A15 to A17, the shared computer 2 reads (creates) a screen for displaying semantic information according to the processing program 13, and displays it on the display device 22 of the personal computer 3 via the communication network 1. You can also Also in this case, it is assumed that semantic information is transmitted from the shared computer 2 to the personal computer 3. Thereby, the requester can obtain the possibility of suffering from colorectal cancer using the genome related information 28 recorded in the genome related information recording medium 24.
As described above, in this system, after confirming the use qualification, the genome-related information recording medium 24 in which the individual polymorphism pattern is recorded in association with the multi-model area is used to record the information in the main DB 14. The requester can use the obtained semantic information by interposing multiple model numbers. Moreover, in this system, since the authentication confirmation process is performed according to the flowcharts shown in FIGS. 7 and 8, unauthorized use can be surely prevented.
In particular, in this system, it is preferable to use a polymorphism pattern and a polymorphism pattern that are not associated with semantic information in the authentication confirmation process for use qualification. Thereby, even if information is leaked due to an unexpected situation in the processes after step 11, it is possible to prevent a third party from knowing the polymorphism area and the polymorphism pattern associated with the semantic information.
In this system, it is preferable to use a genome-related information recording medium 24 that records an encrypted polymorphic pattern. When encrypting a polymorphic pattern, for example, an individual's genomic DNA is analyzed using a genome analysis organization such as a clinical laboratory, and the resulting polymorphic pattern is analyzed. Encrypt by institution or other institution.
Specifically, a random number is selected for each multi-model number in a combination of a plurality of multi-model numbers and a polymorphic pattern obtained as a result of analyzing the individual genomic DNA. The random number may be selected randomly for a plurality of multi-model numbers, or may be selected according to a predetermined rule. Next, using the selected random number, the polymorphic pattern in the predetermined polymorphism area obtained by analysis is encrypted. Thereby, the combination of the multi-model number and the polymorphic pattern obtained by analyzing the individual genomic DNA can be a combination of the multi-model number and the encrypted polymorphic pattern.
In addition, the genome-related information recording medium 24 is manufactured by associating and recording the multi-model address and the encrypted polymorph pattern, and by recording “Gno.” Set so as to be unique to the individual. be able to. Note that the polymorphic pattern encrypted using the database can be decrypted by associating the random number used for encryption with the “Gno.” And recording it in a database of a third party organization or the like.
The encrypted polymorphism pattern does not mean the base sequence in the actual polymorphism address. Therefore, by using the polymorphic pattern encrypted in this way, even if the polymorphic pattern encrypted due to unforeseen circumstances flows out to the outside in the authentication confirmation process and each subsequent process described above. The actual base sequence is not leaked, and the system is excellent in safety. In particular, in the authentication confirmation process, it is not necessary to decrypt even an encoded polymorphic pattern that does not directly mean an individual's actual genomic DNA, and the usage qualifications according to the flowcharts shown in FIGS. Confirmation of authentication can be performed reliably.
Furthermore, in this system, it is also possible to use a genome-related information recording medium 24 that records an encryption key such as a random number used when encrypting a polymorphic pattern. That is, in the above-described example, the genome-related information recording medium 24 in which “multi-model address” and “random number” associated with the multi-model address are recorded for a predetermined “Gno.” The "polymorphic pattern" is recorded in a database of a third-party organization or the like in association with the "multi-model area". In this case, authentication can be performed using an encryption key in accordance with the flowcharts shown in FIGS.
By the way, in this information processing system, after performing an authentication confirmation process according to the flowchart shown in FIG.7 and FIG.8, information processing operation | movement may be performed according to a flowchart as shown in FIG. In the flowchart shown in FIG. 11, the step described as “(co-)” means processing in the shared computer 2, and the step described as “(number)” means processing in the personal computer 3. .
In step B1 (SB1), the requester who has been authenticated for the use qualification activates the processing program 27 recorded in the memory 23 when the requester uses this system. The reading program 25 of the personal computer 3 is driven by the processing program 27 to access the genome related information recording medium 24 and “Gno.” Recorded as data I in the genome related information recording medium 24 is read. The read “Gno.” Is stored in the memory unit 26.
Next, in step B2 (SB2), based on the screen image displayed on the display device 22 by the processing program 27, information that the requester wants to receive, for example, “possibility of colorectal cancer” (request information) ) Is input to the personal computer 3, and “possibility of colorectal cancer” and “Gno.” Are transmitted from the personal computer 3 to the shared computer 2 via the communication network 1, and the main DB 14 “Category (disease name)” means “multi-type pattern” that is a cancer of the large intestine, all “polymorphic patterns” associated with the “multi-type model”, and all “polymorphic patterns”. Request submission of “possibility”. That is, the requester, in step B2, the “classification (disease name)” of the main DB 14 is “multi-model area” in which colorectal cancer and all “polymorphism patterns” associated with the “multi-model area” and the Requests information consisting of “morbidity” meaning each “polymorphic pattern”.
Next, in step B3 (SB3), the shared computer 2 receives the request information. The shared computer 2 activates the processing program 13 when receiving the request information. In step B4 (SB4), the main DB 14 is accessed according to the processing program 13.
Next, in step B5 (SB5), “classification (disease name)” recorded in the main DB 14 is searched according to the processing program 13, and the requested “possibility of colorectal cancer” (colorectal cancer). That match is extracted. In step B6 (SB6), the main DB 14 is accessed in accordance with the processing program 13, and the “multi-model address” associated with the “classification (disease name)” (colorectal cancer) that matches the “morbidity of colorectal cancer”. ”, All“ polymorphism patterns ”associated with the polymorphism location, and“ morbidity ”in all the polymorphism patterns are read out. The read “polymorphic model number”, “polymorphic pattern”, and “morbidity” are stored in the memory unit A10 in association with the request information. That is, “multi-model number”, “polymorphic pattern”, and “morbidity” are recorded in the memory unit A10 for a predetermined “Gno.”.
Next, in step B7 (SB7), the "Gno.", "Multi-model number area", "polymorphic pattern" and "morbidity possibility" recorded in the memory unit A10 are transmitted to the individual via the communication network 1. To the computer 3. In step B8 (SB8), “Gno.”, “Multi-model address”, “polymorphic pattern”, and “morbidity possibility” transmitted from the shared computer 2 are received. The received “Gno.”, “Multi-model area”, “polymorphism pattern”, and “morbidity” are recorded in the memory unit 26.
Next, in step B9 (SB9), according to the processing program 27, the data II recorded on the genome related information recording medium 24 is accessed. At this time, it is preferable to access the data I recorded in the genome related information recording medium 24 and confirm whether or not the received “Gno.” Is correct.
Next, in step B10 (SB10), according to the processing program 27, the polymorphic pattern in the multi-model area that matches the received “multi-model area” is extracted from the genome related information 28. In step B10 (SB10), a search is made for a match with the extracted polymorphism pattern among all the “polymorphism patterns” associated with the received polymorphism address.
In Step B11 (SB11), the “morbidity possibility” associated with the matched polymorphism pattern among all the “polymorphism patterns” associated with the received polymorphism location is extracted, and the extracted “morbidity possibility” Output ". Thereby, the requester can obtain the morbidity (semantic information) for colorectal cancer. At this time, in step B11, additional information recorded in the data III, data IV, and data V is also simultaneously read out, and the possibility of suffering from colorectal cancer is output in a form corrected with the additional information. Good.
As described above, also in this system, after performing authentication confirmation regarding the use qualification, by using the genome related information recording medium 24 in which the individual polymorphism pattern is recorded in association with the multi-model number area, it is recorded in the main DB 14. The requester can use the obtained semantic information by interposing multiple model numbers. Also in this system, since the authentication confirmation process is performed according to the flowcharts shown in FIGS. 7 and 8, unauthorized use can be reliably prevented.
Furthermore, also in this system, it is preferable to use a polymorphism area and a polymorphism pattern which are not associated with semantic information in the authentication confirmation process regarding the usage qualification. Thereby, even if information is leaked due to an unexpected situation in the processes after step 11, it is possible to prevent a third party from knowing the polymorphism area and the polymorphism pattern associated with the semantic information. Furthermore, in this system as well, the use of the genome-related information recording medium 24 that records the encrypted polymorphic pattern makes the system excellent in safety.
In particular, in the information processing operation according to the flowchart shown in FIG. 11, the requester makes a “multi-model number area” in which “classification (disease name)” in the main DB 14 is colon cancer and the “ All the “polymorphism patterns” related to the “polymorphism pattern” and the “morbidity” related to the “polymorphism pattern” are requested to be submitted. In other words, in the information processing operation according to the flowchart shown in FIG. 11, the requester performs a predetermined “multi-model address”, all “polymorphic patterns” related to the multi-model address, and “affected disease” related to the polymorphic pattern. Information with high utility value such as “possibility” will be obtained. Therefore, in such a system, it is preferable to strictly define the use qualification of the requester. By performing the authentication confirmation process according to the flowcharts shown in FIGS. 7 and 8, it is possible to confirm the presence or absence of use qualification for the requester, and to prevent unauthorized use or diversion of information with high use value. .
By the way, in this information processing system, after performing the authentication confirmation process according to the flowcharts shown in FIGS. 7 and 8, the information processing operation may be performed according to the flowchart as shown in FIG. In the flowchart shown in FIG. 12, the step described as “(co-)” means the process in the shared computer 2, and the step described as “(number)” means the process in the personal computer 3. .
In step C1 (SC1), the requester who has been authenticated for use qualification activates the processing program 27 recorded in the memory 23 when the requester uses the system. The reading program 25 of the personal computer 3 is driven by the processing program 27 to access the genome related information recording medium 24, and “Gno.” Recorded as data I in the genome related information recording medium 24 is recorded as data II. All “polymorphic pattern locations” and “polymorphic patterns” are read out. The read “Gno.”, “Multi-model address”, and “polymorph pattern” are stored in the memory unit 26.
Next, in step C2 (SC2), information that the requester wants to receive based on the screen image displayed on the display device 22 by the processing program 27, for example, “possibility of colorectal cancer” (request information). ) Is input to the personal computer 3, and “possibility of colorectal cancer” is recorded in the shared computer 2 from the personal computer 3 via the communication network 1 and “Gno. "," Multi-model number "and" polymorphic pattern ".
Next, in step C3 (SC3), the shared computer 2 receives “possibility of colorectal cancer”, “Gno.”, “Multi-model address”, and “polymorphism pattern”. The received “possibility of colorectal cancer” is recorded as request information in the memory unit A10, and “Gno.”, “Multi-model number area”, and “polymorphic pattern” are also stored in the memory unit A10. The shared computer 2 activates the processing program 13 when receiving the request information. In step C4 (SC4), the main DB 14 is accessed according to the processing program 13.
Next, in step C5 (SC5), “classification (disease name)” recorded in the main DB 14 is searched according to the processing program 13, and the requested “possibility of colorectal cancer” (colorectal cancer). That match is extracted.
In step C6 (SC6), the main DB 14 is accessed according to the processing program 13, and the “multi-model area” classified as “colon cancer” from the main DB 14, all “polymorphic patterns” for the multi-model area, and The “morbidity” for the polymorphic pattern is read out. The read “multi-model number”, “polymorphic pattern”, and “morbidity” are stored in the memory unit A10.
Next, in step C7 (SC7), the data stored in the memory unit A10 in step C6 is searched based on the “multi-model address” and “polymorphic pattern” received in step C3, and the received “polymorphic pattern” is received. ”Is extracted from the memory part A10.
In step C8 (SC8), the possibility of morbidity extracted based on the result of step C7, that is, the polymorphic pattern included in the information received in step C3 matches which polymorphic pattern in the main DB 14 is communicated. The data is transmitted to the personal computer 3 via the line network 1. At this time, the shared computer 2 transmits the extracted morbidity possibility together with the requester “Gno.”.
Next, in step C9 (SC9), “Gno.” And “morbidity” (semantic information) transmitted from the shared computer 2 are received. The received “Gno.” And “morbidity” are recorded in the memory unit 26. At this time, it is possible to access the data I recorded in the genome related information recording medium 24 and confirm whether or not the received “Gno.” Is correct.
Next, in step C10 (SC10), according to the processing program 27, the possibility of suffering from colorectal cancer is displayed on the display device 22 from the semantic information recorded in the memory unit 26. Instead of steps C8 to C10, the shared computer 2 reads (creates) a screen for displaying semantic information according to the processing program 13, and displays it on the display device 22 of the personal computer 3 via the communication network 1. It can also be made. Also in this case, it is assumed that semantic information is transmitted from the shared computer 2 to the personal computer 3. Thereby, the requester can obtain the possibility of suffering from colorectal cancer using the genome related information 28 recorded in the genome related information recording medium 24.
As described above, also in this system, after performing authentication confirmation regarding the use qualification, by using the genome related information recording medium 24 in which the individual polymorphism pattern is recorded in association with the multi-model number area, it is recorded in the main DB 14. The requester can use the obtained semantic information by interposing multiple model numbers. Also in this system, since the authentication confirmation process is performed according to the flowcharts shown in FIGS. 7 and 8, unauthorized use can be reliably prevented.
Furthermore, also in this system, it is preferable to use a polymorphism area and a polymorphism pattern which are not associated with semantic information in the authentication confirmation process regarding the usage qualification. Thereby, even if information is leaked due to an unexpected situation in the processes after step 11, it is possible to prevent a third party from knowing the polymorphism area and the polymorphism pattern associated with the semantic information. Furthermore, in this system as well, the use of the genome-related information recording medium 24 that records the encrypted polymorphic pattern makes the system excellent in safety.
As described above, according to the present system, if only the “multi-model area” and its “polymorphic pattern” are standardized in the genome-related information recording medium 24 and the main DB 14, special data other than that is stored. Since standardization is not required, it can be used in a wide range of industries. That is, when providing information using the genome-related information recording medium 24, a provider of goods and / or services needs to standardize semantic information corresponding to polymorphic patterns and a unified standard such as a data transfer processing method. Instead, information can be provided in various ways.
Furthermore, according to this system, a third party or a third party organization can easily monitor and manage the shared computer 2 by checking the main DB 14. Therefore, since this system can perform administrative management, for example, on the side that provides semantic information, it can perform soundness and ethical management on the side that provides semantic information.
On the other hand, in this information processing system, a genome-related information recording medium excluding information included in data II, that is, a storage medium having only data I and additionally data III to V may be used. In this case, the information included in the data II is recorded in an external database (genome related information recording medium) connected to the personal computer 3 via the communication line network 1. In the case of such a system, for example, in step A10 described above, an external database is accessed via the communication line network 1, the commanded polymorphism pattern of the polymorphism area is read, and the polymorphism area and the polymorphism pattern are read. Can be recorded in the memory unit 26 in association with each other. Therefore, even in such a system, the requester can obtain the semantic information as in the flowcharts shown in FIGS. 9 and 10, the flowchart shown in FIG. 11, and the flowchart shown in FIG.
Further, in this information processing system, the requester does not have either the genome-related information recording medium 24 or the recording medium excluding the information included in the data II from the genome-related information recording medium. In addition, a genome-related information recording medium 24 connected to the personal computer 3 may be provided. In the case of such a system, the requester accesses the genome-related information recording medium 24 via the communication network 1 and records “multi-model number” and “polymorphic pattern” recorded in the genome-related information recording medium 24. Can be downloaded to the personal computer 3. In this case, the genome-related information recording medium 24 may be one in which genome-related information related to a plurality of individuals is recorded for each individual (for each “Gno.”).
Furthermore, the present invention is not limited to the configuration in which the shared computer 2 has the main DB 14 as described above. For example, the information processing system including the main DB 14 connected to the shared computer 2 via the communication network 1. Also applies. In this case, the shared computer 2 accesses the main DB 14 via the communication line network 1 in the flowcharts shown in FIGS. 9 and 10, the flowchart shown in FIG. 11, or the flowchart shown in FIG. 12. Even in this case, according to the information processing system, the requester can obtain desired semantic information according to the flowcharts shown in FIGS. 9 and 10, the flowchart shown in FIG. 11, or the flowchart shown in FIG.
In particular, in this case, the shared computer 2 accesses a plurality of main DBs 14 possessed by different organizations or organizations via the communication network 1, and uses the semantic information included in the plurality of main DBs 14 to request the requester. It is possible to provide information for. That is, in the information processing system, the shared computer 2 is configured to be executed in step A5 in the flowcharts shown in FIGS. 9 and 10, in step B5 in the flowchart shown in FIG. 11, or in step C5 in the flowchart shown in FIG. Various main DBs 14 having information on the possibility of suffering from colorectal cancer as semantic information are accessed. Thereby, according to the information processing system, the requester can obtain information on the possibility of suffering from colorectal cancer based on information included in various main DBs 14.
In addition, in the flowchart shown in FIG. 9 and FIG. 10, the flowchart shown in FIG. 11, or the flowchart shown in FIG. 12, the shared computer 2 receives at least the so-called agent from the personal computer 3 in this system. The request information may be transmitted, and semantic information (in this example, “possibility of affliction for colorectal cancer”) may be obtained via the agent.
By the way, in the example mentioned above, the information processing system which performs an authentication check process according to the flowchart shown in FIG.7 and FIG.8 was demonstrated. However, the present invention is not limited to the above example, and the processing program 13 recorded in the memory 7 of the shared computer 2 and the processing program 27 recorded in the memory 23 of the personal computer 3 are shown in FIG. The present invention can also be applied to an information processing system that performs an authentication confirmation process according to a flowchart. In the flowchart shown in FIG. 13, a step described as “(co)” means a process in the shared computer 2, and a step described as “(number)” means a process in the personal computer 3.
In this authentication confirmation process, first, in step D1 (SD1), when the requester uses this system, the processing program 27 recorded in the memory 23 is activated and the genome-related information recording medium is processed by the processing of the processing program 27. 24 access. Specifically, the processing program 27 drives the reading device 25 of the personal computer 3 to access the genome related information recording medium 24. Next, in step D2 (SD2), the processing program 27 records “Gno.” Recorded as data I in the genome-related information recording medium 24 and a predetermined “multi-model number address” recorded as data II and the multi The “polymorphic pattern” associated with the model number address is read out. The read “Gno.”, “Multi-model address”, and “polymorph pattern” are stored in the memory unit 26.
Here, as the “multi-model number address” and “polymorphic pattern” read in step D2, “poly-model number address” recorded in advance in the authentication polymorphic pattern database 17 is selected. That is, the requester side has “multi-model number address” recorded in the authentication polymorphism pattern database 17 as information in advance.
Next, in step D3 (SD3), the requester sends "Gno.", "Multi-model number" and "polymorphic pattern" stored in the memory unit 26 from the personal computer 3 via the communication network 1. Is transmitted to the shared computer 2. In step D3, authentication of the requester having the genome-related information recording medium 24 of “Gno.” Is transmitted by transmitting “Gno.”, “Multi-model number address”, and “polymorphic pattern” to the shared computer 2. (Authentication confirmation request).
Next, in step D4 (SD4), the shared computer 2 receives “Gno.”, “Multi-model number address”, and “polymorphic pattern” (authentication confirmation request) from the personal computer 3. The received “Gno.”, “Multi-model area”, and “poly-pattern” are stored in the memory unit A10. When the shared computer 2 receives “Gno.”, “Multi-model number address”, and “polymorphic pattern” in step D4, the processing program 13 is activated.
Next, in step D5 (SD5), the authentication polymorphic pattern database 17 is accessed according to the processing program 13 of the shared computer 2. Next, in step D6 (SD6), from a plurality of multi-model numbers surrounded by “Gno.” Matching “Gno.” Received in step D4 from the authentication polymorphism pattern database 17 according to the processing program 13, The polymorphism pattern associated with the multi-model number address that matches the “multi-model number address” received in D4 is read out. The read polymorphic pattern is recorded in the memory unit A10 in association with the polymorphic address.
Next, in step D7 (SD7), it is determined whether or not the “polymorphic pattern” read in step D6 and the “polymorphic pattern” received in step D4 all match. If the “polymorphic pattern” read in step D6 matches the “polymorphic pattern” received in step D4 as a result of the determination in step D7, the process proceeds to step D8 (SD8), and even one does not match. If there are any, proceed to Step D9 (SD9).
In step D8, the personal computer 3 is notified that the authentication related to the use qualification has been confirmed. Specifically, screen data indicating that the authentication has been confirmed is transmitted to the personal computer 3. In step D10 (SD10), the personal computer 3 receives the image data and causes the display device 22 to display the screen data. Thereby, on the shared computer 2 side, the use qualification of the requester can be confirmed when using the system, and unauthorized use of the system can be prevented. In step D8, authentication confirmation data may be transmitted instead of transmitting screen data to the personal computer 3. In this case, the personal computer 3 displays an authentication confirmation completion screen on the display device 22 from the received authentication confirmation data.
On the other hand, in step D9, the personal computer 3 is notified that the authentication relating to the use qualification has not been confirmed, and the processing is stopped. Specifically, screen data indicating that the authentication confirmation processing is rejected is transmitted to the personal computer 3, and the screen data is displayed on the display device 22. In step D9, unauthenticated data may be transmitted instead of transmitting screen data to the personal computer 3. In this case, the personal computer 3 displays an authentication confirmation incomplete screen on the display device 22 from the received authentication unconfirmed data.
By the way, in the present system, all “multi-model numbers” and “polymorphism patterns” recorded in the genome-related information recording medium 24 in step D2 are read, and in step D3, all these “multi-model numbers” and “ A “polymorphic pattern” may be transmitted. In this case, in the shared computer 2, in step D <b> 6, a plurality of “model number addresses” that match the multiple model number addresses recorded in the authentication polymorphism pattern database 17 out of all “polymorphism pattern numbers” and “polymorphic patterns”. Select "Multi-model number". In step D7, whether the “polymorphic pattern” associated with the “polymorphic pattern” selected in step D6 matches the “polymorphic pattern” included in the authentication polymorphic pattern database 17 or not. Determine whether or not. Even in this case, the use qualification of the requester can be confirmed.
In this system, the case where the individual who owns the genome-related information recording medium 24 is the requester has been described, but the present invention is not limited to this. That is, in this system, a requester may be a person who is different from the individual who owns the genome related information recording medium 24 or the individual to which the genome related information 28 of the genome related information recording medium 24 belongs. As such a case, for example, a case where a doctor becomes a requester and makes the above-described authentication confirmation request using the patient's genome-related information recording medium 24 can be cited.
Also in the information processing system, after performing the authentication confirmation process according to the flowchart shown in FIG.Figure10, the information processing operation can be performed according to the flowchart shown in FIG. In particular, when the authentication confirmation process is performed according to the flowchart shown in FIG. 13, the number of times of transmission / reception of information between the personal computer 3 and the shared computer 2 can be reduced in the authentication confirmation process. Therefore, according to the flowchart shown in FIG. 13, the authentication confirmation process can be performed relatively easily.
Even in this case, unauthorized use can be reliably prevented. Further, in the present system, it is preferable to use a multi-model number area and a polymorphic pattern that are not associated with semantic information in the authentication confirmation process regarding the use qualification. Thereby, even if information is leaked due to an unexpected situation in the processes after Step D3, it is possible to prevent the third party from knowing the polymorphism area and the polymorphism pattern associated with the semantic information. Furthermore, also in this system, it is preferable to use the genome related information recording medium 24 on which the encoded polymorphic pattern is recorded, as in the case described above.
As described above in detail, by applying the present invention, an authentication confirmation process for confirming a user's qualification is performed, and then information processing that provides the user with the possibility of suffering a predetermined disease A system can be provided. As described above, when authentication is performed by applying the present invention to a service using personal base sequence related information, the genome related information recording medium 24 and the personal computer 3 used for the service can be used for the authentication as they are. . Therefore, according to the present invention, authentication can be easily performed in a service using personal base sequence related information. However, the present invention is not limited to this information processing system, and can be applied to any system as long as it requires authentication confirmation.
For example, the present invention can be applied to a system that performs authentication confirmation when an automobile door is unlocked and locked, authentication confirmation when entering and exiting a building, and authentication confirmation of membership. Thus, even in a service that does not use the individual base sequence related information itself, authentication can be performed using the genome related information recording medium 24 by applying the present invention.
For example, in an authentication confirmation system for unlocking and closing an automobile door, the authorized user of the automobile has the genome-related information recording medium 24 and the authentication polymorphic pattern database 17 is built in the automobile. In this case, in this system, the genome-related information recording medium 24 is built in a portable device such as a mobile phone or a dedicated device, or is detachable from the device. In this system, the authentication polymorphic pattern database 17 may be provided in a computer in a management organization that manages a plurality of automobiles. In the case where the authentication polymorphic pattern database 17 is built in the automobile, in the authentication confirmation process as shown in FIG. 7 and FIG. 8 or FIG. Since it is not necessary to transmit this notification, a receiving device having only a receiving function may be built in the vehicle instead of the transmitting / receiving device 18.
In this system as well, FIG.FigureBy performing the authentication confirmation process as shown in FIG. 8 or FIG. 13, the authorized user can unlock and lock the car. Specifically, FIG.FigureIn the flowchart shown in FIG. 8, the vehicle is unlocked when it is determined in step 15 that they match, and the vehicle is not unlocked when it is determined in step 15 that they do not match. Thus, by providing the present invention, it is possible to construct an authentication confirmation system for unlocking and closing an automobile door. It is possible to construct an authentication confirmation system that opens and closes the entrance door of the building when entering and exiting the building.
Further, the present invention may be applied to a system using a so-called immobilizer. In this case, the genome-related information recording medium 24 is built in the engine key, and the authentication polymorphic pattern database 17 is built in the automobile. In this system, between the engine key incorporating the genome-related information recording medium 24 and the automobile, FIG.FigureBy performing the authentication confirmation process as shown in FIG. 8 or FIG. 13, unauthorized use of the vehicle due to key duplication can be prevented. Specifically, FIG.FigureIn the flowchart shown in FIG. 8, the engine is started when it is determined in step 15 that they match, and the engine is not started when it is determined in step 15 that they do not match. Thus, by providing the present invention, an authentication confirmation system using an immobilizer can be constructed using the genome-related information recording medium 24.
In either case of the service using the individual base sequence related information or the service not using the individual base sequence related information itself, by separately examining the base sequence related information for the individual who owns the genome related information recording medium 24, It is possible to strictly check whether the genome-related information recording medium 24 is legitimately owned by the person.
Industrial applicability
As described above in detail, according to the present invention, it is possible to provide useful semantic information for each individual by effectively using the difference in base sequence information between individuals, and qualifications on the side used at the time of use, etc. An information processing system that can easily authenticate the information can be constructed.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram schematically showing the configuration of an information processing system to which the present invention is applied.
FIG. 2 is a schematic configuration diagram schematically showing the configuration of the shared computer.
FIG. 3 is a configuration diagram illustrating an example of data recorded in the main DB.
FIG. 4 is a schematic configuration diagram schematically showing the configuration of the personal computer.
FIG. 5 is a block diagram showing an example of data recorded on the genome-related information recording medium.
FIG. 6 is a block diagram showing an example of data recorded in the authentication polymorphic pattern database.
FIG. 7 is a flowchart showing processing in the authentication confirmation step.
FIG. 8 is a continuation of FIG. 7 and is a flowchart showing processing in the authentication confirmation process.
FIG. 9 is a flowchart showing processing in a shared computer and a personal computer in a system for providing morbidity for a predetermined disease.
FIG. 10 is a continuation of FIG. 9, and is a flowchart showing processing in a shared computer and a personal computer in a system for providing morbidity for a predetermined disease.
FIG. 11 is a flowchart showing another process in the shared computer and the personal computer in the system that provides the possibility of suffering from a predetermined disease.
FIG. 12 is a flowchart showing still another process in the shared computer and the personal computer in the system for providing the possibility of suffering from a predetermined disease.
FIG. 13 is a flowchart showing another process in the authentication confirmation step.
1 ... communication network, 2 ... shared computer, 3 ... personal computer,

Claims (4)

An authentication storage area having position information indicating a position in a base sequence and base sequence related information associated with the position information for each individual, and a position information and the position Information processing means capable of accessing a storage area for reading out semantic information in which a plurality of base sequence related information that can be taken at a position where the information means and semantic information that respectively signifies the plurality of base sequence related information are stored in association with each other The authentication target information processing means that can access the authenticated storage area in which the positional information related to the individual and the nucleotide sequence related information are stored in association with each other stores the base sequence related information read out from the authenticated storage area. , Meaning from the storage area for reading out semantic information using the received base sequence related information To the information processing means for reading out the broadcast,
A step a in which the transmission / reception means receives an authentication confirmation request from the authenticated information processing means;
Step b where the control means searches the authentication storage area to read position information, and the transmission / reception means transmits the read position information to the authenticated information processing means;
A step c in which the transmitting / receiving means receives base sequence related information read from the authenticated storage area associated with the position information transmitted in the step b from the authenticated information processing means;
The control means executes step d for determining whether the base sequence related information received in step c matches the base sequence related information stored in the authentication storage area;
In step b, the control means uses the base sequence related information read from the authenticated storage area received from the authenticated information processing means to associate with the semantic information read from the semantic information read storage area. An information processing method relating to a base sequence, wherein position information different from the received position information is searched and read out.   The information processing method according to claim 1, further comprising a step e in which the transmission / reception unit transmits the determination result of the step d to the authenticated information processing unit.   Before the step a, by recording the position information and the base sequence related information associated with the position information for each authentication requester that the control means is qualified for use or for each individual belonging to the authentication requester side The information processing method according to claim 1, further comprising the step of constructing a storage content of the authentication storage area. An authentication storage area having position information indicating a position in a base sequence and base sequence related information associated with the position information for each individual, and a position information and the position A plurality of base sequence related information that can be taken at the position that the information means and semantic information reading storage areas in which the plurality of base sequence related information and the semantic information meaning the respective base sequence related information are stored in association with each other; The base-side related information read from the authenticated-side storage area by the authenticated-side information processing means that can access the authenticated-side storage area in which the positional information related to the base sequence-related information is stored in association with each other The semantic information is read from the semantic information reading storage area using the received base sequence related information. A broadcast processing means,
An authentication confirmation request receiving means for causing the transmitting / receiving means to function to receive an authentication confirmation request from the authenticated information processing means;
Position information transmission means for causing the control means to search the storage area for authentication to read position information, and to cause the transmission / reception means to function to transmit the read position information to the information processing means to be authenticated;
Function that the transmitting / receiving unit receives the base sequence related information read from the authenticated storage area associated with the positional information transmitted by the positional information transmitting unit from the authenticated information processing unit. Base sequence related information receiving means for
Determination means for causing the control means to function to determine whether or not the base sequence related information received by the base sequence related information receiving means matches the base sequence related information stored in the authentication storage area; With
Semantic information read from the storage area for reading semantic information by using the base sequence related information read from the storage area to be authenticated and received from the authentication side information processing means by the control means in the position information transmission means An information processing apparatus relating to a base sequence, wherein position information different from the position information associated with is retrieved and read out.

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